The Rise of Wearable & IoT Devices in Healthcare

In recent years, wearable technology and IoT (Internet of Things) devices have transformed healthcare, offering new ways to monitor and manage health conditions in real time. These innovations have improved patient outcomes, enhanced preventive care, and optimized hospital operations. This article explores the role of smartwatches, smart hospital devices, fitness trackers, and wearable biosensors in modern healthcare.

Smartwatches for Heart Rate and ECG Monitoring

Smartwatches have evolved beyond just tracking steps and calories; they now serve as mini health monitors on the wrist. Features like heart rate tracking, ECG (electrocardiogram) monitoring, and blood oxygen measurement allow users to detect potential heart issues early.

ECG monitoring in smartwatches (like the Apple Watch and Samsung Galaxy Watch) can detect irregular heart rhythms, such as atrial fibrillation (AFib), which is a leading cause of strokes. Continuous heart rate tracking helps users identify stress levels, detect arrhythmias, and optimize workouts. Smartwatches can alert users and even contact emergency services if they detect life-threatening heart conditions.

These devices are particularly useful for individuals with heart disease, older adults, and athletes looking to optimize their performance.

IoT in Hospitals: Smart Beds and Connected Devices

Hospitals are integrating IoT-enabled smart beds and connected devices to enhance patient care and improve hospital efficiency. These technologies help in real-time monitoring, automation, and remote assistance.

Smart beds adjust automatically to improve patient comfort, reduce pressure ulcers, and track vital signs without the need for manual monitoring. IoT-connected devices such as smart IV pumps, temperature monitors, and remote patient monitoring systems improve patient safety and reduce human errors. Real-time location systems (RTLS) help hospitals track medical equipment, staff, and even patients, reducing wait times and improving resource allocation.

IoT in hospitals not only enhances patient safety and comfort but also helps reduce the workload for healthcare professionals.

The Role of Fitness Trackers in Preventive Healthcare

Fitness trackers like Fitbit, Garmin, and WHOOP are widely used to promote an active lifestyle and prevent chronic diseases. These wearables provide valuable health insights by tracking:

Daily step count and physical activity levels

Sleep patterns and quality

Calorie intake and expenditure

Heart rate variability (HRV) for stress and recovery analysis

By encouraging people to stay active, sleep better, and manage stress, fitness trackers play a crucial role in preventing obesity, diabetes, and cardiovascular diseases. Many healthcare providers now integrate fitness tracker data into preventive healthcare plans to provide personalized recommendations.

Wearable Biosensors for Real-Time Health Monitoring

Wearable biosensors are advancing healthcare by enabling continuous, real-time monitoring of vital signs and biochemical markers. Unlike traditional wearables, biosensors can detect subtle physiological changes and alert users and doctors in case of emergencies.

Glucose monitoring wearables like the FreeStyle Libre and Dexcom allow diabetics to track blood sugar levels without painful finger pricks. Sweat and skin sensors can measure hydration levels, electrolyte balance, and even detect early signs of illness. Wearable ECG patches continuously monitor heart rhythms, helping detect arrhythmias or early signs of a heart attack.

These biosensors are particularly beneficial for chronic disease management, post-surgery recovery, and elderly care.

Conclusion

The integration of wearable and IoT devices in healthcare has revolutionized patient care, making it more proactive, personalized, and efficient. Smartwatches, smart hospital devices, fitness trackers, and wearable biosensors have enabled early disease detection, improved hospital operations, and empowered individuals to take charge of their health.

As technology continues to evolve, we can expect even more advanced wearables that will further enhance preventive care, remote monitoring, and digital health solutions. These innovations are paving the way for a healthier and more connected future.

Utilizing OTA for Raspberry Pi to Provide Advanced Intelligent Security Solutions

Overview of Intelligent Security Solutions Security systems are growing increasingly intelligent, interconnected, and efficient in today's quickly evolving technology environment. As the Internet of Things (IoT) becomes more integrated, traditional security methods are changing. The foundation of contemporary smart security systems is the move toward networked devices, such as cameras and alarms. What makes these systems so effective is the smooth device connection and real-time data processing. The capacity to easily update, control, and optimize devices is essential to these developments, and Raspberry Pi OTA (over-the-air) updates make this possible.

The Role of Raspberry Pi in Smart Security Raspberry Pi, a versatile and affordable microcomputer, has become a go-to solution for powering numerous IoT-based security systems. Its compact size, robust performance, and vast community support make it ideal for a wide range of applications, from simple motion sensors to complex surveillance systems. The adaptability of Raspberry Pi allows it to integrate seamlessly into smart security networks, providing a cost-effective and customizable platform. Through raspberry pi ota updates, security devices can stay up-to-date, ensuring they operate with the latest features and security patches without the need for manual intervention.

What is Raspberry Pi OTA? Raspberry Pi OTA refers to over-the-air software updates that can be remotely delivered to Raspberry Pi-based systems. These updates are essential for maintaining security, improving performance, and adding new functionalities without physical access to the device. Raspberry Pi OTA ensures that the system remains operational and secure, eliminating downtime and enhancing the overall efficiency of the device. This method of updating is particularly useful for devices deployed in the field, such as remote cameras or sensors, where accessing the hardware would be costly and time-consuming.

Wearable Health Monitors in Smart Security Systems Wearable health monitors, often part of the medical IoT ecosystem, are making their way into security systems. These devices track a wearer’s vital signs and location, sending real-time data to security centers. When integrated with Raspberry Pi-based systems, these devices can trigger alerts in case of abnormal health readings or unusual behavior, creating a comprehensive security network. For instance, if a security personnel's wearable health monitor detects a critical health event, such as a heart attack or a fall, the system can notify emergency responders immediately.

Patient Monitoring Devices as a Security Enhancement Patient monitoring devices offer a similar synergy between health data and security. By monitoring critical patient parameters like heart rate, blood pressure, and oxygen saturation, these devices provide real-time insights into a person’s well-being. When connected to smart security systems powered by raspberry pi ota devices, they can activate security measures such as unlocking doors for emergency personnel or alerting medical teams. This technology ensures that not only is the patient safe, but also that security protocols are adjusted in real time based on their health condition.

Telemedicine Devices and Remote Security Management Telemedicine devices are revolutionizing healthcare by enabling patients and doctors to connect remotely. These devices provide real-time monitoring and consultations, which can be especially beneficial in remote or underserved areas. Integrating these devices into a smart security system powered by Raspberry Pi OTA updates ensure that both health and security data are communicated seamlessly. A telemedicine device can detect a security breach, and the Raspberry Pi system can trigger appropriate measures, such as alerting local authorities or initiating an automatic response to lock down the premises.

Medical IoT Devices and Smart Security Integration Medical IoT devices, such as connected pacemakers, glucose monitors, and ventilators, are increasingly playing a role in hospital and home security systems. These devices not only monitor a patient’s health but also contribute to the broader security framework by triggering alerts when something goes wrong. For example, if a patient’s glucose levels drop dangerously low, an IoT-enabled device can alert both medical professionals and the security system to ensure a swift response. The combination of medical IoT devices with raspberry pi ota updates allows for seamless upgrades and secure integration across both healthcare and security networks.

Benefits of Raspberry Pi OTA in Security System Upgrades Raspberry Pi OTA updates provide a host of benefits when it comes to maintaining and upgrading security systems. Traditional security systems often require manual intervention to update, which can lead to operational inefficiencies and vulnerabilities. With Raspberry Pi OTA, however, updates can be pushed out to devices remotely, ensuring that they are always running the latest software. This means that security devices, whether they are cameras, sensors, or alarm systems, remain optimized and protected against new threats. Additionally, Raspberry Pi OTA enables the deployment of new features without disrupting the user experience.

Conclusion: Raspberry Pi OTA Offers a Smarter, Safer Future Raspberry Pi OTA will become more and more important in facilitating smooth updates, security fixes, and new features as the need for sophisticated smart security solutions keeps rising. The security and healthcare sectors are undergoing a transformation thanks to the integration of Raspberry Pi OTA with wearable health monitors, patient monitoring devices, telemedicine tools, and medical IoT systems. With ongoing technological developments, Raspberry Pi OTA guarantees that security systems are not only more intelligent but also more robust, providing a safer future for people, companies, and medical institutions.

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Safeguarding Connectivity: Addressing Vulnerabilities in 5G Infrastructure

In the realm of technological evolution, 5G has emerged as the pinnacle of innovation, promising unprecedented connectivity, lightning-fast speeds, and transformative capabilities. However, amidst the euphoria surrounding this groundbreaking technology, concerns about security loom large. As the 5G landscape continues to evolve, ensuring robust security measures is imperative to mitigate potential risks and safeguard sensitive data.

Understanding the Significance of 5G Security

Defining the Paradigm Shift

5G represents a paradigm shift in wireless communication, revolutionizing industries, and empowering IoT ecosystems. With its enhanced speed, capacity, and low latency, 5G is poised to unleash a wave of innovation across various sectors, ranging from healthcare and transportation to manufacturing and entertainment. However, the proliferation of 5G also introduces novel security challenges that demand proactive solutions.

Addressing Vulnerabilities

The unprecedented speed and connectivity offered by 5G networks amplify the attack surface, rendering traditional security measures inadequate. Cybercriminals can exploit vulnerabilities in 5G infrastructure to launch sophisticated cyberattacks, compromising network integrity and data confidentiality. From DDoS attacks to man-in-the-middle assaults, the threat landscape has evolved, necessitating robust security protocols to safeguard against potential breaches.

The Evolution of 5G Security Measures

Encryption and Authentication

Encryption lies at the heart of 5G security, ensuring that data remains confidential and integrity is maintained during transmission. Advanced cryptography algorithms such as AES and Elliptic Curve Cryptography are employed to encrypt data packets, thwarting eavesdropping attempts by malicious actors. Additionally, stringent authentication mechanisms, including digital certificates and biometric authentication, bolster access control and mitigate the risk of unauthorized access.

Network Slicing and Virtualization

Network slicing emerges as a game-changer in 5G security, enabling service providers to partition network resources into distinct virtual networks tailored to specific use cases. By implementing isolated slices with dedicated security policies, organizations can ensure segmentation and isolation of critical services, minimizing the blast radius in the event of a security breach. Furthermore, network function virtualization (NFV) enhances agility and resilience, allowing rapid deployment of security functions to counter emerging threats.

AI-Powered Threat Detection

In the era of 5G, Artificial Intelligence (AI) emerges as a potent ally in the cybersecurity arsenal, leveraging machine learning algorithms to detect and mitigate threats in real-time. By analyzing vast datasets and identifying anomalies in network traffic, AI-driven security solutions can preemptively thwart cyberattacks before they escalate, thereby fortifying 5G infrastructure against evolving threats.

Collaboration and Regulatory Compliance

Industry Collaboration

The complexity and interconnectedness of 5G ecosystems necessitate collaboration among stakeholders to establish industry-wide standards and best practices. From telecommunication providers and equipment manufacturers to government agencies and regulatory bodies, concerted efforts are required to foster a secure and resilient 5G ecosystem. Information sharing and collaborative research play a pivotal role in strengthening cyber defenses and mitigating emerging threats.

Regulatory Frameworks

Regulatory frameworks serve as a cornerstone of 5G security, providing guidelines and compliance mandates to ensure adherence to security standards and privacy regulations. Regulatory bodies such as the National Institute of Standards and Technology (NIST) and the European Telecommunications Standards Institute (ETSI) play a pivotal role in shaping the security landscape by issuing recommendations and certifications to validate compliance with security protocols.

Conclusion

As 5G continues its inexorable march towards global proliferation, security remains paramount in unlocking its transformative potential. By embracing encryption, network slicing, AI-driven threat detection, and fostering collaboration across industry stakeholders, organizations can fortify 5G infrastructure against emerging threats and embark on a journey towards a secure and resilient digital future.

Revolutionize Your Heart Health: 5 Benefits of Using a Portable ECG Device

In today's fast-paced world, prioritizing our health is more important than ever. One vital aspect of overall well-being is heart health. With the advancements in technology, monitoring heart health has become more accessible and convenient than ever before. One such innovation that has revolutionized the field is the portable ECG device in Malaysia.

Understanding Heart Health

The heart is the engine of our body, tirelessly pumping blood and oxygen to every cell. Maintaining a healthy heart is crucial for longevity and vitality. However, heart issues can often go unnoticed until they become severe. Regular monitoring of heart health is essential for early detection and prevention of cardiovascular diseases.

What is a Portable ECG Device?

A portable ECG (electrocardiogram) device is a compact, handheld device that allows individuals to monitor their heart's electrical activity anytime, anywhere. It records the heart's rhythm and can detect abnormalities that may indicate underlying heart conditions.

Benefits of Using a Portable ECG Device

1. Early Detection of Heart Issues

Portable ECG devices enable early detection of heart issues by providing real-time data on heart rhythm. This allows individuals and healthcare professionals to identify irregularities promptly and take necessary precautions or interventions.

2. Convenience and Accessibility

Unlike traditional ECG machines found in hospitals or clinics, portable ECG devices are small, lightweight, and easy to use. They can be carried in a pocket or purse, allowing users to monitor their heart health on the go, whether at work, home, or while traveling.

3. Continuous Monitoring

With a portable ECG device, individuals can monitor their heart health continuously over an extended period. This continuous monitoring provides a more comprehensive picture of heart activity, especially for individuals with chronic conditions or those at risk of cardiovascular diseases.

4. Empowerment Through Self-Management

Portable ECG devices empower individuals to take charge of their heart health. By regularly monitoring their heart rhythm and understanding the data provided by the device, users can make informed decisions about their lifestyle, medication adherence, and when to seek medical attention.

5. Integration with IoT Devices

Portable ECG devices can seamlessly integrate with other IoT (Internet of Things) devices and healthcare apps, allowing for streamlined data collection, analysis, and sharing with healthcare providers. This integration enhances collaboration between patients and their healthcare team, leading to better outcomes.

Choosing the Right Portable ECG Device

When selecting a portable ECG device, it's essential to consider factors such as accuracy, ease of use, battery life, data storage capabilities, and compatibility with other devices and platforms. Consulting with a healthcare professional can help individuals choose the device that best suits their needs.

Case Studies and Success Stories

Numerous individuals have benefited from using portable ECG devices to monitor their heart health. From detecting arrhythmias to preventing heart attacks, these devices have played a crucial role in improving outcomes and quality of life for users worldwide.

Challenges and Limitations

While portable ECG devices offer many advantages, they also have limitations. Factors such as signal interference, user error, and the inability to diagnose certain conditions may affect their efficacy. Additionally, access to healthcare and affordability may pose challenges for some individuals.

Future Trends in Heart Health Monitoring

The future of heart health monitoring holds promising developments, including wearable ECG patches, AI-powered diagnostic tools, and remote monitoring solutions. These advancements aim to make heart health monitoring even more accessible, accurate, and personalized.

Conclusion

In conclusion, portable ECG devices have revolutionized heart health monitoring by providing individuals with convenient, accessible, and reliable tools to track their heart rhythm. From early detection of heart issues to continuous monitoring and integration with IoT devices, these devices offer numerous benefits for users. By embracing this technology and prioritizing regular heart health monitoring, individuals can take proactive steps towards a healthier heart and a happier life.

FAQs

Are portable ECG devices suitable for everyone? Portable ECG devices can be used by individuals of all ages, but specific models may be more suitable for certain populations, such as older adults or those with pre-existing heart conditions. It's essential to consult with a healthcare professional to determine the most appropriate device for your needs.

How often should I use a portable ECG device? The frequency of use depends on individual factors such as medical history, risk factors, and healthcare provider recommendations. Some individuals may benefit from daily monitoring, while others may only need periodic checks. It's best to follow the guidance of your healthcare provider.

Can portable ECG devices diagnose heart conditions? While portable ECG devices can detect irregularities in heart rhythm, they are not intended to diagnose specific heart conditions. Any abnormal findings should be discussed with a healthcare professional for further evaluation and diagnosis.

Are portable ECG devices covered by insurance? Coverage for portable ECG devices may vary depending on insurance providers and policies. Some insurance plans may cover the cost partially or fully with a prescription from a healthcare provider. It's advisable to check with your insurance provider for coverage details.

Are there any side effects associated with using portable ECG devices? Portable ECG devices are generally safe to use, but some individuals may experience skin irritation from the electrodes or discomfort during prolonged wear. It's essential to follow the manufacturer's instructions and consult with a healthcare professional if you experience any adverse effects.

Embracing the Future: Top 20 WebTech Trends to Look Out for in 2024-2025

As we step into the heart of the digital era, the world of web technologies continues to evolve at an unprecedented pace. The year 2024 promises to be a groundbreaking period, witnessing the emergence of cutting-edge trends that will reshape the way we interact with the digital landscape. In this blog post, we'll explore the top 20 web technology trends that are set to dominate in 2024-2025.

AI-Powered Web Development: Artificial Intelligence (AI) is poised to revolutionize web development, enhancing automation, and streamlining processes. AI algorithms will be employed to optimize website performance, personalize user experiences, and automate routine tasks.

Voice Search Optimization: With the increasing prevalence of smart speakers and voice-activated devices, optimizing websites for voice search is becoming imperative. Web developers will focus on creating content that is easily discoverable through voice queries.

Progressive Web Apps (PWAs): Progressive Web Apps will continue to gain traction as they combine the best features of web and mobile applications. PWAs offer seamless user experiences, faster load times, and offline capabilities, making them a preferred choice for businesses.

Extended Reality (XR): The integration of Augmented Reality (AR) and Virtual Reality (VR) into web applications will redefine user interactions. XR will find applications in e-commerce, education, and entertainment, creating immersive experiences.

Blockchain Integration: The adoption of blockchain technology will strengthen security measures and enhance transparency in web applications. Decentralized applications (DApps) and smart contracts will become more prevalent.

Cybersecurity Advancements: With the rise in cyber threats, cybersecurity will be a top priority. Advanced encryption, biometric authentication, and AI-driven threat detection systems will fortify websites against malicious attacks.

5G Technology: The widespread deployment of 5G networks will revolutionize web experiences by delivering faster and more reliable internet connections. This will facilitate the growth of IoT, VR, and AR applications.

Serverless Architecture: Serverless computing will gain popularity, allowing developers to focus on writing code without managing server infrastructure. This approach offers scalability, cost-efficiency, and faster development cycles.

Edge Computing: Edge computing will reduce latency and enhance the performance of web applications by processing data closer to the source. This trend is crucial for real-time applications, IoT, and AI.

Responsive Web Design 2.0: The evolution of responsive web design will continue, ensuring optimal user experiences across a myriad of devices, including wearables and foldable screens.

Natural Language Processing (NLP): NLP will play a pivotal role in improving the interaction between users and websites. Chatbots and voice assistants will become more sophisticated in understanding and responding to natural language queries.

WebAssembly (Wasm): WebAssembly will empower developers to build high-performance web applications by enabling code execution at near-native speeds. This technology will break down language barriers and foster cross-platform compatibility.

Low-Code and No-Code Development: The rise of low-code and no-code platforms will democratize web development, allowing individuals with minimal coding skills to create functional applications.

Single Page Applications (SPAs): SPAs will continue to be a popular choice for web development, providing a seamless user experience by loading content dynamically, reducing page reloads, and improving speed.

Dark Mode Optimization: Dark mode has become a user preference, and websites will increasingly optimize their designs to accommodate this feature. This not only enhances aesthetics but also conserves device battery life.

Biometric Authentication: Biometric authentication methods, such as fingerprint and facial recognition, will become standard for enhancing security in web applications.

Web 3.0: The evolution towards a decentralized web, often referred to as Web 3.0, will gain momentum, emphasizing user privacy, data ownership, and decentralized applications.

Micro Frontends: Micro frontend architecture will enable teams to independently develop and deploy frontend components, improving scalability and maintenance in large-scale applications.

Data Mesh Architecture: Data mesh, an innovative approach to data architecture, will gain prominence, decentralizing data ownership and management to improve scalability and flexibility.

Conversational User Interfaces: Integrating conversational interfaces into web applications will become more prevalent, enhancing user engagement through natural and interactive communication.

Conclusion:

As we embark on the journey into 2024-2025, these web technology trends signify a transformative era for digital experiences. SBSC Embracing these innovations will not only keep businesses ahead of the curve but will also contribute to the creation of a more interconnected, secure, and user-centric internet landscape. The future of the web is promising, and it is SBSC’s collective responsibility as developers, businesses, and users to adapt and thrive in this dynamic digital ecosystem.

What is the future scope of smart transformer?

Unlocking the Future: The Scope of Smart Transformers

The electrical grid, a cornerstone of modern society, is undergoing a remarkable transformation. At the heart of this revolution lies the smart transformer, a sophisticated and intelligent device that promises to reshape the way we generate, distribute, and consume electricity. In this blog, we'll explore the exciting future scope of smart transformers and how they are set to revolutionize the power industry.

1. Enhanced Efficiency and Reliability

Smart transformers are designed to be more than just passive components; they are proactive power managers. By constantly monitoring voltage, load, and other critical parameters, they optimize energy flow and reduce wastage. This heightened efficiency not only lowers electricity bills but also reduces carbon emissions, aligning perfectly with the global push for sustainability.

Moreover, the real-time data collected by smart transformers allows for predictive maintenance. They can detect issues before they become critical, minimizing downtime and enhancing the overall reliability of the power grid.

2. Integration of Renewable Energy

As the world shifts towards renewable energy sources such as solar and wind, the intermittent nature of these sources poses challenges for grid stability. Smart transformers play a pivotal role here. They can seamlessly integrate renewable energy into the grid, ensuring a stable and reliable power supply.

These transformers enable bidirectional power flow, allowing excess energy generated by rooftop solar panels, for example, to be fed back into the grid. This not only promotes the use of clean energy but also offers consumers the opportunity to become energy producers themselves.

3. Grid Resilience

In the face of natural disasters and extreme weather events, maintaining a resilient power grid is paramount. Smart transformers are equipped with self-healing capabilities. When a fault or disruption is detected, they can quickly isolate the affected area, reconfigure the grid, and restore power to unaffected regions. This feature is a game-changer in minimizing outage durations and improving grid resilience.

4. Voltage Regulation and Power Quality

Smart transformers excel at maintaining stable voltage levels and ensuring high power quality. Voltage sags, surges, and harmonics can all disrupt sensitive equipment and electronics. Smart transformers mitigate these issues, making them invaluable in industries where consistent power quality is critical, such as healthcare and manufacturing.

5. Grid Management and Optimization

The proliferation of smart transformers is not limited to individual units; it extends to the grid as a whole. Through advanced communication systems, smart transformers can communicate with each other and with grid operators. They can reroute power dynamically, balance loads, and respond to changing demand patterns in real-time. This level of grid management and optimization was previously unimaginable but is becoming a reality thanks to smart transformer technology.

6. Cybersecurity

As we enter an era of interconnected devices and the Internet of Things (IoT), cybersecurity is a top concern. Smart transformers are designed with robust security features to protect against cyber threats. They employ encryption and authentication protocols to ensure that critical infrastructure remains safe from malicious attacks.

In conclusion, the future scope of smart transformers is nothing short of transformative. These intelligent devices are poised to enhance efficiency, integrate renewable energy, bolster grid resilience, improve power quality, optimize grid management, and ensure cybersecurity. As they become more widespread, we can expect a smarter, greener, and more reliable electrical grid that meets the evolving needs of our rapidly changing world.

The Crucial Role of Sensors in the Internet of Things

The Internet of Things (IoT) is revolutionizing the way we interact with our surroundings. The proliferation of smart devices and sensors has led to an explosion of data that is being generated every day. Sensors, in particular, play a critical role in the IoT ecosystem, as they are responsible for collecting data and transmitting it to other devices for processing and analysis. In this article, we will explore the role of sensors in the IoT and how they are being used to drive innovation and change across various industries.

What are sensors?

A sensor is a device that is designed to detect and respond to changes in its environment. Sensors are used to measure physical quantities such as temperature, pressure, humidity, light, sound, and motion. Sensors can also be used to detect the presence of specific substances or gasses.

Sensors come in various shapes and sizes, and they can be embedded in different types of devices. For example, sensors can be found in smartphones, wearables, cars, buildings, and industrial machinery. Sensors are also being used in smart cities to monitor traffic flow, air quality, and noise levels.

The Role of Sensors in the IoT

The IoT is a network of devices that are connected and communicating with each other to collect and share data. Sensors play a critical role in the IoT ecosystem, as they are responsible for collecting data and transmitting it to other devices for processing and analysis.

Sensors are used in the IoT to monitor and collect data on various parameters such as temperature, humidity, pressure, and motion. This data can then be transmitted to other devices such as smartphones or computers for processing and analysis.

For example, in the healthcare industry, sensors are being used to monitor the health and well-being of patients. Wearable devices such as fitness trackers and smartwatches are equipped with sensors that can monitor a patient's heart rate, blood pressure, and oxygen levels. This data can then be transmitted to healthcare professionals who can use it to monitor the patient's health and provide personalized treatment plans.

Sensors are also being used in the transportation industry to monitor the performance of vehicles. Sensors can detect changes in engine temperature, tire pressure, and fuel consumption, which can help fleet managers to optimize the performance of their vehicles and reduce maintenance costs.

In the manufacturing industry, sensors are being used to monitor the performance of machinery and equipment. Sensors can detect changes in temperature, vibration, and pressure, which can help operators to identify potential issues before they become major problems.

Challenges of Using Sensors in the IoT

While sensors have the potential to drive innovation and change across various industries, there are several challenges associated with their use in the IoT.

One of the main challenges of using sensors in the IoT is the sheer volume of data that is generated. Sensors can generate data in real-time, and this data needs to be processed and analyzed quickly to provide useful insights and information. This requires advanced processing capabilities, which can be expensive and difficult to implement.

Another challenge of using sensors in the IoT is the need for secure and reliable communication channels. Sensors need to be able to transmit data securely to other devices without the risk of data breaches or cyber attacks. This requires the use of advanced encryption and security protocols, which can be challenging to implement and maintain.

Finally, there is a challenge associated with the standardization of sensors. There are many different types of sensors available, each with its own specifications and protocols. This can make it difficult to integrate different types of sensors into a single IoT ecosystem.

Sensors play a critical role in the IoT ecosystem, as they are responsible for collecting data and transmitting it to other devices for processing and analysis. Sensors are being used to drive innovation and change across various industries, including healthcare, transportation, and manufacturing.

While sensors have the potential to transform the way we interact with our surroundings, there are several challenges associated with their use in the IoT, including the volume of data generated, secure communication channels, and standardization.

Despite these challenges, the benefits of incorporating sensors into the IoT are significant. By collecting and analyzing data in real-time, businesses can gain valuable insights into their operations and optimize their processes for improved efficiency, cost savings, and increased productivity.

As the IoT continues to evolve, the role of sensors will become increasingly important. By leveraging the power of sensors, businesses can stay ahead of the curve and drive innovation in their industries. From healthcare to transportation to manufacturing, the possibilities are endless for how sensors can transform the way we live and work.

Sensors are the backbone of the IoT ecosystem, collecting and transmitting data to other devices for processing and analysis. With their ability to monitor and collect data on various parameters, sensors have the potential to revolutionize industries and drive innovation. However, the challenges associated with their use must be carefully addressed to ensure their full potential is realized. As we continue to embrace the power of IoT, the role of sensors will only become more critical, paving the way for a smarter and more connected world.

The Vital Role of IoT in Heart Attack Detection and Heart Rate Monitoring

According to the Centers for Disease Control and Prevention, the leading cause of death among men and women is heart disease, accounting for 630,000 deaths in the United States alone each year. Unfortunately, this isn’t unique to the United States, with heart disease killing more than 1,500,000 Chinese each year, according to the International Conference on Knowledge-Based and Intelligent Information and Engineering Systems.

One of the main reasons why so many individuals die from heart attacks is because there is a short window of time between when the symptoms begin and when the individual can make it to a hospital. Since symptoms vary from one individual to the next, many are unaware of the early warning signs and delay seeking medical attention. In the few hours that are critical after a heart attack, if the individual cannot receive medical attention, the dying heart muscle will be permanently damaged due to a lack of oxygen

To overcome these delays, engineers are working on developing an IoT enabled heart attack detection system and heart rate monitor that will help alert individuals to seek out medical attention before an attack. The device is wearable and will continuously monitor the individual’s electrocardiogram (electrical activity of the heart) and notify them if there are elevated levels that would lead to myocardial infarction. The device will tell the user the exact location of the event, and it will be connected to the cloud to alert others via Wi-Fi.

How Does the Proposed IoT Solution Work?

The proposed system will be able to detect a heart attack by observing the user’s heart rate through an Internet of Things architecture.

The general architecture of most IoT solutions can be divided into three primary layers; the sensing layer, the transport layer, and the application layer. The sensing layer is what allows the patient’s vitals to be read, while the transport layer provides data transmission through transit points, and the application layer is installed at the end of the device. In this particular IoT solution, a pulse sensor, Arduino board, and Wi-Fi module are being used to create the system. The system’s architecture works as follows.

Once the system is in place and set up, the individual can set up a start point. This allows the individual to monitor their heartbeat and compare it to the set point. Once these limits are set, the system will monitor the heart rate of the individual continuously.

The pulse sensor is connected to an Arduino Uno microcontroller board, which has 14 digital input and output pins on it, 6 of which can be used to monitor PWM outputs.

The RX and TX pins on the board are used for communication between the Arduino board and the Wi-Fi module, LCD screen, and heart rate application. The Arduino microcontroller board has an operating voltage of 5-volts and uses 32KB of flash memory for code storage.

The pulse sensor being used is a “plug and play” heart rate sensor, which allows the individual to simply place their finger on it to take a reading. The sensor picks up the movement of blood through the finger and gives a numerical output of the heartbeat.

Once the pulse sensor crosses the set limit, the system will send out an alert about the heart rate to the individual. The system also allows you to set it to alert for low heartbeats.

What does Architecture Look Like?

At the beginning of the system, you have the pulse sensor which detects the heartbeat signal. The heartbeat signal is attached to the Arduino Uno microcontroller board. The Arduino Uno board is connected to the Wi-Fi module and the LCD screen. The Wi-Fi module is connected to the heart rate application, allowing for the data to be transported over the internet to individuals like caregivers and doctors.

How Are These IoT Solutions Being Used in HealthTech?

The heart attack detection and heart rate monitor aren’t the only use case of how IoT solutions are vital in our healthcare system. There are other applications of similar IoT enabled devices that can monitor heart disease, help the recovery process after a stroke, and even help heart condition patients live a normal life with IoT enabled pacemakers.

Heart Disease Monitoring:

Doctors can now keep track of a patient’s condition without needing them to come into the office as IoT solutions have been developed to measure blood sugar levels, cholesterol levels, and blood pressure levels. This information can be received in real-time through a heart disease monitoring device that transmits the data through the internet.

Stroke Recovery:

Wearable sensors have been developed to monitor an individual’s rehabilitation process. In previous iterations, patients would be bed-ridden and monitored with dozens of wires for the time that recovery was required. Now, the data can be systematized through a flexible and wearable sensor application that can be set to notify when goals are met, track recovery progress metrics and create alerts about key recovery indicators.

IoT Pacemakers:

A pacemaker is a small device that is placed in one’s chest to help control your heartbeat. It is used to help your heartbeat at regular intervals if you have an irregular heartbeat. An IoT enabled pacemaker could provide breakthrough information about a patient’s exact condition as real-time results can be transmitted to doctors and caregivers.

You can read also – “Medcheck” – An IoT based Healthcare Diagnostic Solution

What Are the Benefits of IoT in Healthcare?

Real-time monitoring can save lives during a medical emergency like heart failure, asthma attacks, and diabetic episodes (remote medical assistance).

IoT devices can be continuously connected and are an affordable solution for those who want to cut down on unnecessary doctor visits.

IoT devices can be used for research purposes since they collect a massive amount of data about an individual. This can speed up the rate at which cures, and better treatments can be found.

While there have been numerous heart attack detection methods introduced into our healthcare systems, most are time-consuming to create and expensive to manufacture. A proposed technique using an Arduino Uno microcontroller board is a more modern take that can be easy to manufacture and deploy.

If you are looking to get a free quote from one of the best IoT app development company in Canada, then please get in touch with us for any IoT Healthcare Solutions.

How IoT is Changing the Telemedicine Industry

Data has been a very important part of medicine as a whole, from diagnosis to even its treatment. Thanks to innovation though, healthcare is growing leaps and bounds with the right technological aspects that enable high-quality data analysis, namely Artificial Intelligence (AI) and Internet of Things (IoT).

The advent of IoT solutions and services has played a big role in completely changing the face of healthcare as we know it. As a result, the potential applications and use cases have increased drastically- device integration and remote monitoring being just a couple of the many.

If we talk about the healthcare sector comprehensively, IoT app development services are increasingly being used to seamlessly integrate sensors, detectors, and monitoring systems to capture live information about the patient.

What’s IoT?

To understand IoT, you can think of it as a network of interconnected devices that are linked with the Internet, facilitating the transmission of data as and when needed, by whichever of the connected devices. Be it any industry other than healthcare, better availability of data brings better decision-making, undoubtedly.

As IoT in healthcare continues to become a strong force to reckon with, patients now have lot more chances to receive proper and efficient treatments on time. Medical care also becomes cost-effective as a result, because of early and timely detection of health issues in patients.

The Rise and Rise of Telemedicine

While things were developing at their own sweet pace, the coronavirus pandemic accelerated that telemedicine app development process by a significant margin, other than thrusting the process, delivery, and development of every other industry by a few years as well.

Virtual health has become the new normal and is on the safe path to have it for a long time in the future too, due to the convenience it brings with itself. Visiting physical clinics and attending to patients from a physical set-up is likely to reduce further with time, as the technology will enable all of these things and more to be done.

Also read this article: Biggest Telehealth Benefits for Doctors and Patients

Benefits of IoT in Healthcare

The next decade in the health industry is surely going to be one full of promise, where customized telemedicine software solutions with IoT are surely going to transform the way healthcare is administered even further. With IoT, there’s a seamless integration of devices, people, and technology together with the right solutions.

Here’s a look at some of the benefits that IoT brings to the healthcare sector as a whole-

* Better Experiences for Patients

With a connected network through healthcare, patients show a lot more interest along with the doctors to bring a boost to diagnosis efficiency, thanks to the all-time availability of high-quality health data.

* Real-Time Patient Monitoring

Because IoT makes the healthcare processes smarter than ever before, patients get access to their health status and updates in real-time and even provide timely alerts and notifications for the same.

If a patient faces an urgent medical emergency like asthma or heart attack, then the device notifies much before in advance and helps them connect with their doctor or physician as soon as possible.

* Reduction in Overall Healthcare Costs

With the help of IoT-based solutions and connected IoT devices, doctors can now monitor their patients from literally anywhere in the world with just the Internet being a mandatory requirement, ensuring timely diagnosis as well as treatment.

Thanks to this remote healthcare where constant communication becomes normal, the costs incurred during those hospital visits, as well as traveling come expenses come down dramatically.

A Few Challenges for Technology in Healthcare

With digital connections to patients a possibility with relative ease now, things look very smooth for the healthcare industry as a whole. Wearable devices have made real-time information supremely accessible, making lives healthier and simpler.

On the flip side though, there are a few challenges that need to be addressed when IoT completely takes over your telehealth software solutions, some of which are presented below-

Proper integration of multiple devices that work and run on different protocols, making it all a complicated process and becomes a hurdle for efficient communication.

Consolidated data security infrastructure to ensure the safety of patient-related information.

Because the data sets will be alarmingly large, there need to be proper measures in place for proper data management and handling too.

A Positive Trend to Better Health

Telemedicine app development solutions have revolutionized the healthcare industry as we know it. With the Internet of Things, it’s surely bound to grow from strength to strength in the time to come. Other than a minor few challenges, it’s all too promising!

Consagous Technologies is a leading name in custom telehealth software development and has been providing global clients with customized telemedicine software solutions for more than a decade. Connect and experience professional app development in a way like never before.

Original Source:

https://www.consagous.co/blog/how-iot-is-changing-the-telemedicine-industry

How IoT is Changing the Telemedicine Industry

Data has been a very important part of medicine as a whole, from diagnosis to even its treatment. Thanks to innovation though, healthcare is growing leaps and bounds with the right technological aspects that enable high-quality data analysis, namely Artificial Intelligence (AI) and Internet of Things (IoT).

The advent of IoT solutions and services has played a big role in completely changing the face of healthcare as we know it. As a result, the potential applications and use cases have increased drastically- device integration and remote monitoring being just a couple of the many.

If we talk about the healthcare sector comprehensively, IoT app development services are increasingly being used to seamlessly integrate sensors, detectors, and monitoring systems to capture live information about the patient.

What’s IoT?

To understand IoT, you can think of it as a network of interconnected devices that are linked with the Internet, facilitating the transmission of data as and when needed, by whichever of the connected devices. Be it any industry other than healthcare, better availability of data brings better decision-making, undoubtedly.

As IoT in healthcare continues to become a strong force to reckon with, patients now have lot more chances to receive proper and efficient treatments on time. Medical care also becomes cost-effective as a result, because of early and timely detection of health issues in patients.

The Rise and Rise of Telemedicine

While things were developing at their own sweet pace, the coronavirus pandemic accelerated that telemedicine app development process by a significant margin, other than thrusting the process, delivery, and development of every other industry by a few years as well.

Virtual health has become the new normal and is on the safe path to have it for a long time in the future too, due to the convenience it brings with itself. Visiting physical clinics and attending to patients from a physical set-up is likely to reduce further with time, as the technology will enable all of these things and more to be done.

Benefits of IoT in Healthcare

The next decade in the health industry is surely going to be one full of promise, where customized telemedicine software solutions with IoT are surely going to transform the way healthcare is administered even further. With IoT, there’s a seamless integration of devices, people, and technology together with the right solutions.

Here’s a look at some of the benefits that IoT brings to the healthcare sector as a whole-

* Better Experiences for Patients

With a connected network through healthcare, patients show a lot more interest along with the doctors to bring a boost to diagnosis efficiency, thanks to the all-time availability of high-quality health data.

* Real-Time Patient Monitoring

Because IoT makes the healthcare processes smarter than ever before, patients get access to their health status and updates in real-time and even provide timely alerts and notifications for the same.

If a patient faces an urgent medical emergency like asthma or heart attack, then the device notifies much before in advance and helps them connect with their doctor or physician as soon as possible.

* Reduction in Overall Healthcare Costs

With the help of IoT-based solutions and connected IoT devices, doctors can now monitor their patients from literally anywhere in the world with just the Internet being a mandatory requirement, ensuring timely diagnosis as well as treatment.

Thanks to this remote healthcare where constant communication becomes normal, the costs incurred during those hospital visits, as well as traveling come expenses come down dramatically.

A Few Challenges for Technology in Healthcare

With digital connections to patients a possibility with relative ease now, things look very smooth for the healthcare industry as a whole. Wearable devices have made real-time information supremely accessible, making lives healthier and simpler.

On the flip side though, there are a few challenges that need to be addressed when IoT completely takes over your telehealth software solutions, some of which are presented below-

Proper integration of multiple devices that work and run on different protocols, making it all a complicated process and becomes a hurdle for efficient communication.

Consolidated data security infrastructure to ensure the safety of patient-related information. Because the data sets will be alarmingly large, there need to be proper measures in place for proper data management and handling too.

A Positive Trend to Better Health

Telemedicine app development solutions have revolutionized the healthcare industry as we know it. With the Internet of Things, it’s surely bound to grow from strength to strength in the time to come. Other than a minor few challenges, it’s all too promising!

Consagous Technologies is a leading name in custom telehealth software development and has been providing global clients with customized telemedicine software solutions for more than a decade. Connect and experience professional app development in a way like never before.

Original Source:

https://www.consagous.co/blog/how-iot-is-changing-the-telemedicine-industry

Cyber Security in 2020: What Do You Need to Know?

As an ecommerce site, technology is at the heart of your business. Cybersecurity and data protection rank among the top priorities for businesses that rely on technology to function. The 2019 Cost of Data Breach Report highlights that the average cost of data breaches in the US is $3.92 million. The Global Information Security Survey finds that your customer data tends to be the number one target. It’s valuable for attackers because they can use it for a range of criminal enterprises, or sell it to others. If your business experiences a data breach, it’s not just about the cost of the data itself, but the reputational cost to your business too. Besides data breaches, as an ecommerce business you should be vigilant against cyber attacks that seek to take down your website. Malware (malicious software) can hijack the functionality of your website, hold it for ransom, or even take it down altogether. Like anything else technology-related, cybersecurity threats move and change rapidly. It can seem like a game of cyber whack-a-mole at times, as new threats raise their heads. For ecommerce businesses and any others heavy on technology, this means that your best bet is to stay ahead of the game as much as possible. Here are some of the top cybersecurity trends heading into 2020:

The role of AI

AI (artificial intelligence) has seen rapid development over recent years. Expert predictions for 2020 are that we’ll see it playing more of a role in cybersecurity attacks: “AI won’t only enable malware to move stealthily across businesses without requiring a human’s hands on the keyboard, but attackers will also use AI in other malicious ways, including determining their targets, conducting reconnaissance, and scaling their attacks.” -Marcus Fowler, Darktrace Use of AI voice technology has already seen fraud committed using “deepfake”—where the fraudster uses AI to impersonate the voice of a real person. It is expected that this might open the door for the next wave of identity fraud, including phishing attacks. As business owners, it’s important to recognize this not only to protect your own business, but also to protect your customers. Another potential avenue for AI attacks is the spread of disinformation. Most people will be familiar with this idea in a political sense, but there is vast potential for this to be used against businesses and other organizations too: “In 2020, we will see more of the terrifying reality that deep learning algorithms can bring about in generating fake, but seemingly realistic images and videos. This application of AI will be a catalyst for large scale disinformation campaigns that are targeted and individualized to the behavioral and psychological profiles of each victim, furthering reach and impact.” -Pascal Geenens, Radware On the flipside of this are companies that are merging AI into their cybersecurity measures to protect against threats. In 2020, it is expected that more companies will use predictive, proactive AI to help beat cybersecurity threats.

Data encryption advancements

As cyber attacks become more sophisticated, how we encrypt our data has had to become more advanced to stay ahead of the game. Ecommerce stores are no different—you should have (or your platform provider should have) an advanced strategy for encrypting data. It’s not just about protecting your business and reputation, but complying with any laws that apply where you do business, too. Recent advances in data encryption include: Distributed ledger technologies: You may have heard of distributed ledger in relation to digital currencies. It's a digital system for recording the transaction of assets in which the transactions and their details are recorded in multiple places at the same time. This means there is no centralized database or administration role. Each node of the network holds data, which creates a system that is difficult to successfully attack.Zero-knowledge encryption: In a nutshell, “zero-knowledge” means that no one but you has the keys to your data. This means no passwords are kept anywhere for backup in case you forget your password. Of course, this also means that if you’re likely to forget your password, zero-knowledge is probably not the best choice for you as you’ll be locked out from your data. The point of encryption is as “insurance” if your data does get stolen. If it has been well-encrypted, your hope is that whoever stole it won’t be able to read it. This may sound like a bit of a cynical approach, but the fact is, it’s difficult to protect data from any hacker that is skilled and determined enough to access it. Even the NSA has been hacked previously.

Malware infections on devices

As we consider what to expect in the cybersecurity world in 2020, it pays to look at what we’ve already experienced in 2019. Kaspersky’s IT Security Economics in 2019 report reveals that around half of organizations endured a malware infection on company-owned devices. If your company has employees doing any sort of work from their own devices, it’s also worth noting that the report found around half also had malware infections on employee-owned devices. Cyber attacks targeting mobile phones, in particular, rose by over 50% in 2019. These included attacks such as credential-theft, surveillance, and malicious advertising. Given that many companies now allow employees to use their own devices, enabling remote work and flexibility, there is legitimate concern over device attacks being used as a backdoor into companies. Where does this leave your ecommerce business? It’s important to give careful thought to your policies for device use and your methods for protecting company-owned devices. It’s attractive for cyber attackers to target personal devices because they’re often not as well-protected as company-owned devices. This also means they don’t have the more difficult task of trying to target company accounts directly. "Users need to protect their devices with a holistic solution that blocks malware and network attacks, and prevents data leakage and credentials theft, without affecting the user experience." -Danny Palmer, ZDNet

5G and IoT Data impacts

The adoption of 5G is becoming more and more widespread as infrastructure is added to enable it. The expected impacts of 5G rollouts include more connected IoT (Internet of Things) devices and a vaster array of data being collected. For example, healthcare apps are looking at collecting real-time data from users, and connected cars may monitor our movements. This adds more possible vectors of cyber attack. IoT devices are already a known weak link—it’s possible that a hacker could be using your smart home to access data from your ecommerce business. Some experts believe that the adoption of 5G will give rise to the first public disclosures of data breaches due to a mobile phone. 5G may result in gaps in traditional network security that hackers will look to exploit.

Cyber Insurance

The purpose of cyber insurance is to provide protection for businesses or individual users from internet-based and IT infrastructure-based risks. For an ecommerce business, cyber insurance can help with business continuation in the event of a cyber attack, or compensation for loss (such as via business interruption insurance). There are different types of cyber insurance on the market, and with the growth of cyber threats, these insurance policies are becoming a necessity for businesses and other organizations that operate online. Cyber insurance policies are predicted to morph and grow to account for the changing landscape of cyber threats. You only have to consider what it might cost you if your ecommerce store were taken down by malware for a few days, or if you were held up by ransomware. A technology failure could also take you out for a period of time until it is able to be fixed. As it stands, the digital economy tends to be severely under-insured against these cyber threats. It is predicted that more digital businesses will take up cyber insurance as knowledge of it expands.

Final Thoughts

Without wanting to sound all doom and gloom, cybersecurity threats are still an ever-present danger to businesses in 2020. It’s important that companies look to take a preventative approach, over and above a detection-focused approach as getting ahead is your best defense. Read the full article

IoT for Public Safety Market Size and Prediction by Leading Manufacturers According to Its Application and Types Till 2027

Global IoT for Public Safety Market: Snapshot

A wide assortment of internet of things (IoT) technologies has made vast inroads into consumer and enterprise markets in recent years.  End users have been leveraging the potential in connected devices for achieving numerous objectives diverse applications areas, world over. Industry players have forayed into public safety and emergency response systems. Government and regulatory agencies in various countries tasked with ensuring public safety are increasingly using IoT-enabled devices. The technologies enable them to utilize environmental, situational, and contextual awareness data from smart connected devices to meet their operational requirements and achieve optimal cost reduction. The use of IoT also enables agencies to bolster asset management capabilities and improve staff safety. As an example, first responders during emergencies may use IoT to reduce the response time and overcome infrastructural constraints to improve their services. Growing popularity of machine-to-machine (M2M) communication technologies is also boosting the market.

Rising use of IoT and M2M technologies in surveillance systems, communication networks, and biometric and authentication system is propelling the growth of the IoT for public safety market. Advances in IoT platforms particularly with respect to the safety and security of smart devices have been underpinning new, exciting avenues in the IoT for public safety market. Advent of integrated IoT platforms have unlocked lucrative prospects in the market.

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Rising number of terrorist attacks, especially in public places, and growing number of natural calamities, notably floods, are factors bolstering the demand for IoT technologies in developing and developed countries. Rising adoption of IoT as one of the key frameworks of smart cities in numerous countries is boosting the market. Moreover, modernized communication network, such as telecom networks, lay down a solid foundation for innovative product launches in the IoT for public safety market. However, the uptake is limited on account of low level of awareness.

Nevertheless, the growing use cases of IoT for healthcare has opened a new avenue in the market. IoT plays a pivotal role in the healthcare industry for expediting emergency healthcare. For instance, the use of smart devices is gathering steam for real-time monitoring of patients suffering with life-threatening diseases is a case in point. Numerous IoT-enabled devices such as connected medical wristband may be worn by patients to detect early risks in vital parameters. This may help in early detection of the potential risks of heart attacks in the patient population.

IoT-enabled platforms and services have gathered some steam among police, fire, and emergency medical services in developed countries. They are benefitting from the launch of cost-effective wireless solutions. Moreover, there is rising demand for such IoT solutions among law enforcement agencies for monitoring non-violent offenders, pre-trial detainees, and juveniles. A potential use of IoT in public safety is the rising usage of wearable sensors on police uniforms. For instance, the use of gun holster sensors and body cameras helps improving their accountability. Growing acceptance of data gathered through smart devices has also expanded the prospects of the market.

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Sense Analyse Act with IoT

Advancement in mobile technologies and the Internet of Things are making a notable influence across diverse industries, offering consumer-facing products and assistance, improving service, personalization and oversight. The bank security systems, in particular, has welcomed digitisation with an open heart. Internet of Things is playing a huge role in the financial sector with the potential of transforming the economic and banking sector.

As banks deal with massive data and extensive data transfers, IoT aid banks and financial organisations to work smart with the aim of saving time and energy. IoT is also helping the BFSI industry in developing its whole security arrangement. Banks and financial organisations are now utilising the IoT technologies to reduce frauds, detect risks in advance and provide better services to customers.

 Moreover, Gartner predicts a large growth in the amount of “connected devices” by 2020. As per a report by the Gartner, there will be above 14 billion connected devices by the end of 2019, expanding to over 25 billion by the end of 2021.

 IGZY is a leading IoT service provider with an ecosystem of next-generation Bank Security and Surveillance System. With a single unified IoT platform, we are the eSurveillance solution partner of several top brands. This blend of IoT devices has successfully assisted in various perspectives on the growth of our client companies.

 For the best solutions, we must identify the primary issues.

 1. Lack of sensors in the shutter, vault room door and back rooms

 2. No formal command centre to take immediate actions

 3. The insecurity of data, fear of the DVRs getting destroyed or stolen

 4. Absence of instant alarming system in case of an attack

 5. Safety of ATMs compromised due to the lack of professional wireless security cameras and sensors

 6. Due to the current manual fire alarm system fire cannot be detected on or before time

 IGZY provide you with Surveillance Security Systems for bank, operating with a formula of Sense Analyze and Act. So, let us understand the procedures of the same.

 Sensing The Situations

• Safety & security sensors send notification as soon as a burglar tries to enter a branch/ATM Alarm. The alarm panel triggers siren to the command centre. Also, with the help of smoke sensors, any incident of fire can be averted.

• Surveillance cameras with the IFTTT technology visually verify the identity of the person/people trying to forcefully commit any action.

• IoT & Video Gateways/Routers with rule engines process the severity of events and prioritize them.

Analysing The Situations

• The 24-hour active IoT platform visually verifies the incident and speak to the intruder using the 2-way audio communication.

• The command centre follows the escalation levels and informs the customer, populated with the defined category and the information of the location. 

• Events get logged in with the tickets raised including remarks and comments.

Instant Actions

• Nearest police or fire stations are contacted without losing a moment. As security is considered as the top priority in every financial institution. Stay safe security by detecting any crime or incident even before it occurs.

• As all the data is saved securely in the cloud platform, incidents like loss of data or recordings are impossible. Hence, lock the evidence and reports safely and share it with the law enforcement officials to catch hold of the criminals.

• Engineers are allocated in the case of a device requiring maintenance, keeping the whole ecosystem of smart devices in good health.

Also, the inventive features like the Bank Burglar Alarm System with a panic button further intensify the safety and security of the branch, one can raise an alarm in case of immediate assistance if required. As the implementation of IoT services is digitized, it reduces the recurring costs from your security budget with hardly any dependability on physical security guards.

As the incidents of robberies are rising with new ways of improvisation, the banks and ATMs also need to upgrade their security standards to overcome those. Since the trust of the banks lies on the safety and security of their braches, IGZY help banks innovate and devise better means of countering risks and improving efficiency. So, contact IGZY to become a part of this revolution.Also, the inventive features like the Bank Burglar Alarm System with a panic button further intensify the safety and security of the branch, one can raise an alarm in case of immediate assistance if required. As the implementation of IoT services is digitized, it reduces the recurring costs from your security budget with hardly any dependability on physical security guards.

 As the incidents of robberies are rising with new ways of improvisation, the banks and ATMs also need to upgrade their security standards to overcome those. Since the trust of the banks lies on the safety and security of their braches, IGZY help banks innovate and devise better means of countering risks and improving efficiency. So, contact IGZY to become a part of this revolution.

The Next Big Wave in Healthcare Industry for 2020

The Healthcare industry is the most sensitive one as compared to other industries in terms of data as it generates 2,500 petabytes of data every day. These data come from various sources such as patient information, diagnostic tests, prescriptions, and insurance claims. You will be shocked after knowing that approx. 90% of this data has been created in the last two years only.

To deal with these data and emerging needs of patients, the healthcare industry is turnabout towards digitization and preparing for pacing with rapid advancements in medical technology and overall quality of care. Now the way through which care facilities have been delivered to the patients have changed with the overwhelming use of mhealth mobile app development solutions that have doubled in recent years.

According to the survey done by healthcare professionals, the healthcare industry will overcome all clogs by 2025. The same study revealed that health monitoring devices, wearables, and video collaboration solutions, will play a crucial role in creating a bright healthcare future.

In the upcoming years, primary care will be accessible to all citizens, regardless of distance with the help of broadband, smartphones, and applications.

Now, wearable app development services and mhealth mobile app development services have made it possible to track real-time patients’ health condition. With access to this comprehensive information about the patient, physicians can offer personalized treatment and care rather than a general diagnosis. 

Technology is involving in the healthcare sector at a fast pace, which is changing the whole scenario of the healthcare industry. From visiting the doctors’ clinic to video consultations, being prescribed mHealth app and using a smartphone for a routine checkup, healthcare is truly changing.

Let’s discuss the new trends of the Healthcare Industry for 2020.

  The Next Big Trends in the Healthcare Industry for 2020

Though the healthcare sector is filled with immense technologies, but here we have only covered five best technologies that have overcome healthcare barriers.

  1. Artificial Intelligence

Artificial Intelligence is not new to the world, but its new blessings will still be untouched by the industries. Now with more secure and AI-infused “wearables” healthcare professionals keep oversees their patients from anywhere at any time. “Studies show that 88% of consumers are willing to share data derived from AI-infused “wearables” with healthcare professionals”.

Customized Artificial Intelligence solutions could be an effective tool for physicians to intensify patient care and could also provide governess help by reminding patients to take medicine and leading patients through medication.

  2. Big Data 

Based on market research, “the global big data in the healthcare market is expected to reach $34.27 billion by 2022 at a CAGR of 22.07%”. Big Data analytics solutions are changing the way hospitals track information related to patients. Apart from wearables that can detect the patient’s heart rate, distance walked, sleep, exercise, calories, etc. there are new medical Big Data applications are available in the market that can monitor the patient’s blood pressure, pulse Oximeters, glucose monitors, and more. 

Monitoring devices allows healthcare organizations to treat people remotely as they can identify health issues before the situation goes worse. Big Data solution helps the hospital to arrange patient’s data in such a way so it can be accessed to understand the pattern of many patients. It can identify their chronic issues and help in giving patients better care remotely to minimize their frequent visits.

  3. Internet of Things

Market research done by P&S Market revealed that healthcare IoT development services will record a CAGR of 37.6% between 2015 and 2020. It also surmises that this increasing need will be derived by wireless health monitoring systems, which can detect chronic diseases like heart attacks, stroke, cancer, diabetes, epilepsy and seizures, obesity, and oral health problems.

With custom IoT application development, hospitals are creating a personalized atmosphere for monitoring health conditions through wearables. Some popular smart devices like Fitbit, Apple smartwatches are capable of diagnosing patient’s early stage for holistic health analysis and wristbands to track eating habits to suggest customized nutrition choices.

  4. Blockchain

According to Hyperledger’s survey, “42.9% of healthcare organizations suppose that the interoperability of electronic health records will help for faster blockchain implementation”.

Blockchain technology, the most disruptive technologies in the world is spreading its wings and now become an unavoidable part of every industry. Just like other industries, Healthcare industry is also adopting the Blockchain to innovate the way they function. 

Though there are some furtherance’s still needed to adopt Blockchain ledger technology smoothly across the whole medical industry but it truly provides a more shielded way to protect data. 

  5. Digital Twin

A full 92% of healthcare consumers surveyed said that improving customer experience should be a top strategy this year. 

As the advances in medical technology has been rapidly increasing, the potential of healthcare services has also increased and holds the promise to meet the emerging demands of patients. 

With the arrival of digital twin technology, the healthcare industry is addressing the new challenges and offering a comprehensive approach to differentiate each unique patient within the system to start the right care processes to treat the health conditions of patients. A digital twin will also improve both care delivery and the patient experience through effective and efficient patient-centric care. 

  Summing up

There’s no doubt that the healthcare industry has a promising future as several smart devices have added to this field for remote monitoring. It is just a beginning, healthcare revolution is still in its early stages and you will see a lot more changes in the upcoming years. We should expect to see mhealth mobile app development solutions becoming the norm in a healthcare setting. 

Top Benefits Of IoT Mobile Apps In Various Industries

The Internet of Things (IoT) offers unparalleled benefits for various industries such as transportation, health care, manufacturing, retail, logistics, water, etc. IoT applications and related software systems guarantee transparency, increased operational efficiency, better security, and increased profit margins. For this reason, IoT development services are in great demand throughout the world.

The main benefits of IoT Mobile applications in various industries

Real-time monitoring using IoT applications in the health and transportation industry

When different business processes are monitored in real-time, errors decrease and operating efficiency increases. In the health industry, various connected devices provide important data about the health of patients in conditions such as diabetes, heart failure, asthma attacks, etc. This data is recorded on the IoT application and is used by doctors and physicians to provide needed treatment.

Likewise, in transportation, sensor, camera, RFID, beacon, etc. companies used the IoT system to track various processes such as vehicle delivery, fleet management, etc. For example, AppWeigh, an IoT enabled mobile application helps track the weight of a truck using sensors installed on their tires. This information is sent to the owner's smartphone and they can find out the weight of the truck. Every time the load is reduced or increased from the truck, a message is sent to the owner. This ensures safe and legal cargo shipments. As such, AppWeigh allows automatic tracking.

Read More:- Redbus mobile app cost in Bangalore | cost of app development like ola

Information Collection and Analysis in water management and the hospitality industry

IoT devices collect a large amount of important data that can be used to study user behavior, to make instant decisions in the event of an emergency, to innovate work systems, to set deadlines for staff, etc. In the hospitality industry, IoT is used to automate tasks such as guest check-in, opening their room keys, sending notifications to guests, etc. This system is also used to turn off lights when guests go out which saves energy. Also, read- Artificial Intelligence companies in Qatar | AI Company in Muscat

Likewise, in the water industry, measuring and monitoring water levels can be done efficiently using IoT. This IoT system is used in wastewater management, water conservation, water quality testing, and analysis projects.

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Productivity, Efficiency, and Higher Operational Costs

The IoT system helps businesses make smart decisions. When there is an end to end visibility, transparency in operations increases. The timeline can be calculated and productive hours can be managed properly. Many tasks can automatically save staff time and effort while reducing labor costs. IoT applications, thus, maximize productivity and efficiency which multiplies business profits.

By using the internet, the staff is managed in a better way, the engine is well maintained, energy costs can be saved by tracking fuel levels, voltage / current readings, etc. And the work process is made more efficient. All this reduces operational costs.

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Enhanced Automation

The IoT application enables companies to access a whole new level of automation. Several devices attached to the internet such as systems, platforms, machines, applications, etc. Data from various business verticals can be collected, analyzed, and sent to the desired department for further processing in minutes. Reminders, warning messages, readings, notifications, etc. Automatically sent to the manager or staff member concerned. Many tasks are automated using an intelligent IoT system.

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Enhanced Security

With the help of IoT development services, systems can be developed to ensure security in the process and workplace. This system uses different devices such as sensors, surveillance cameras, warning systems, smart locks, flares, etc. To detect dangerous conditions and send signals to authorized personnel. In high-risk environments such as the electricity industry, heavy industry, construction sites,

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Conclusion

IoT application development services play an important role in bringing more businesses to different industrial domains. This helps in improving the business model while improving the quality of work. The health, manufacturing and transportation sectors seem to benefit most from this latest technology, however, IoT is still spreading in other domains quickly. IoT's potential is huge and has strengthened many businesses.

Fusion informatics is the top IoT app development company in Doha, Qatar, and also globally We provide our services to start-ups and other companies. As top IoT companies in Qatar have a team of specialists in IoT development and can develop IoT apps which will be beneficial to the users and companies. Contact us for enhancing your business and stay ahead in the competition

Top advantages of IoT mobile apps in various business domains

A British technology pioneer, Kevin Ashton, first coined the term, “Internet of Things (IoT)” in 1999 and today, this futuristic technology is rapidly gaining popularity. It offers unparalleled benefits to different industries like transportation, healthcare, manufacturing, retails, logistics, water, etc. IoT apps and related software systems assure more transparency, increased operational efficiency, better security and increased profit margins. Due to these reasons, IoT development services are in high demand across the globe.

Major benefits of IoT mobile apps in different industries

Real-time monitoring using IoT apps in healthcare and transportation industry

When different business processes are monitored in real-time, errors decrease and the efficiency of operations increase. In the healthcare industry, there are different connected devices which provide vital data about the patients’ health in conditions like diabetes, heart failure, asthma attacks, etc. This data is recorded on the IoT apps and used by doctors and physicians to give the required treatment.

Likewise, in the transportation industry, sensors, cameras, RFID, beacons, etc. are used in IoT systems to keep track of many processes like the shipment of vehicles, fleet management, etc. For instance, AppWeigh, an IoT-enabled mobile app helps to keep track of weight on the trucks with the use of sensors attached to their tires. This information is sent to the smartphones of owners and they can be aware of the weight on trucks. Whenever the load is reduced or increased from the truck, a message is sent to the owners. This ensures safe and legal shipment of the load. Thus, AppWeigh enables automated tracking process.

 Data Collection and Analysis in Water management and hospitality industry

IoT devices collect a large amount of important data which can be used to study the user behavior, to make instant decisions in case of emergency, to innovate the working systems, to set deadlines for the staff, etc. in many industries.

In the hospitality industry, IoT is used to automate tasks like checking-in of guests, unlocking their rooms, sending notifications to the guests, etc. These systems are also used to switch the lights off when the guests go out which saves energy.

Likewise, in the water industry, measuring and monitoring of water levels can be efficiently done using IoT.  These IoT systems are used in waste-water management, water conservation, water quality testing and analysis projects.

 Higher Productivity, Efficiency and Reduced Operational Costs

IoT systems help businesses to make smart decisions. When there is end-to-end visibility, transparency in operations increases. Timelines can be calculated and productive hours can be managed well. Many tasks can be automated saving time and efforts of the staff while reducing the labor costs. IoT apps, thus, maximize the productivity and efficiency that multiply the business profits.

Using internet of things, the staff is managed in a better way, machinery is well-maintained, energy costs can be saved by keeping track of fuel levels, voltage/current readings, etc. and work processes are made more efficient. All this reduces the operational costs.

 Increased Automation

IoT apps have let the businesses to enter a whole new level of automation. Different devices, systems, platforms, machines, apps, etc. are connected to each other through the internet of things. Data from different business verticals can be gathered, analyzed and sent to the desired department for further process in minutes. Reminders, alert messages, readings, notifications, etc. are automatically sent to concerned managers or staff members. Many tasks are automated using intelligent IoT systems.

 Improved Safety

With the help of IoT development services, systems can be developed to assure the security in the processes and workplaces. These systems use different devices like sensors, surveillance cameras, alert systems, smart-locks, beacons, etc. to detect dangerous conditions and send signals to authorized personnel. In high-risk environments like electrical industries, heavy industries, construction sites, etc. the IoT systems are employed to constantly monitor machines, premises and other important assets.

 Conclusion

IoT app development services are playing a vital role in bringing in more business for different industrial domains. It helps in enhancing the business models while improving the quality of work. Healthcare, manufacturing and transportation sectors seem to benefit the most from this cutting-edge technology, however, IoT is still spreading in other domains at a fast pace. The potential of IoT is huge and already strengthening multiple businesses.