IoT for Smart Ambulances - Real-Time Monitoring During Emergencies

Theta Technolabs explores how IoT empowers smart ambulances with real-time patient monitoring, GPS tracking, and data sharing during emergencies. These technologies improve emergency response, enable remote diagnostics, and ensure faster, data-driven medical decisions—saving critical time and lives.

Traffic Light Control System: Advancing Urban Traffic Management and Road Safety

Introduction

Efficient traffic management is a cornerstone of modern urban planning, ensuring smooth vehicle flow, reduced congestion, and enhanced pedestrian safety. A traffic light control system integrates AI, IoT, and real-time sensor data to optimize signal timing, improve road efficiency, and support smart city development. As urban areas expand, implementing an intelligent traffic light control system becomes essential for creating sustainable transportation networks.

Why Smart Traffic Light Control Systems Are Transforming Cities

Traditional traffic signals operate on fixed timing, often leading to inefficiencies, congestion, and prolonged wait times. Advanced traffic light control systems enhance urban mobility with:

Dynamic Signal Timing Adjustments – Uses sensor-based data to modify signal durations based on real-time traffic conditions.

Improved Road Safety – Reduces collision risks and ensures structured pedestrian crossings.

AI-Driven Traffic Optimization – Implements machine learning algorithms to predict and regulate vehicle flow.

Eco-Friendly Urban Planning – Reduces vehicle idle time, fuel consumption, and emissions, contributing to greener cities.

How to Select the Right Traffic Light Control System

1. AI-Powered Adaptive Traffic Control

Opt for smart systems that integrate vehicle sensors, automated response mechanisms, and data-driven traffic flow analysis for optimized performance.

2. Centralized & Remote Traffic Monitoring

Ensure the system allows cloud-based signal management, enabling traffic authorities to adjust signals remotely and improve emergency vehicle response times.

3. IoT Connectivity & Predictive Data Analysis

Modern systems incorporate real-time IoT sensors for data-driven decision-making, helping cities anticipate traffic patterns and adjust signals accordingly.

4. Energy-Efficient LED Signal Technology

Upgrade to LED-based traffic lights, which provide better visibility, longer lifespan, and lower maintenance costs.

5. Compliance with Transportation Regulations

Ensure the system meets local and international urban traffic safety standards, supporting seamless integration into existing infrastructure.

Industries & Applications for Traffic Light Control Systems

Smart City Planning & Infrastructure Development – AI-powered signaling improves urban mobility.

Highway & Intersection Traffic Flow Optimization – Reduces congestion and enhances safety.

Pedestrian & Public Transit Management – Improves efficiency for mass transit systems and pedestrian crossings.

Emergency & Priority Vehicle Routing – Enables faster response times for ambulances, law enforcement, and fire services.

Why Investing in a Modern Traffic Light Control System Is Essential

With increasing urban traffic volumes, deploying AI-driven traffic light control systems ensures efficiency, safety, and sustainability, benefiting both public infrastructure and private-sector transportation initiatives.

Conclusion

Upgrading to a smart traffic light control system enhances road efficiency, urban sustainability, and commuter safety. Whether integrating AI automation, IoT sensors, or centralized control panels, investing in cutting-edge solutions leads to a more connected and efficient transportation network.

The Impact of 5G on Future Technology

In the rapidly evolving digital landscape, 5G is more than just a network upgrade—it’s a technological revolution. The rollout of 5G is already reshaping industries, transforming user experiences, and paving the way for the next wave of future technologies. With blazing speeds, ultra-low latency, and the ability to connect billions of devices simultaneously, the 5Gimpact is nothing short of transformative.

In this blog, we’ll explore how 5Gapplications are redefining everyday life, fueling 5Ginnovation, and enabling the future of everything from smart cities to healthcare, autonomous vehicles, and beyond.

Understanding the 5G Revolution

Before diving into the impact, it’s important to understand what sets 5G apart. Compared to 4G, 5G offers:

Faster speeds (up to 100x faster than 4G)

Ultra-low latency (as low as 1 millisecond)

Massive device connectivity (up to 1 million devices per square kilometer)

These capabilities are not just enhancements—they are 5G enables technologies that were previously impossible due to network limitations.

5GImpact on Future Technologies

The true 5Gimpact lies in how it acts as a foundation for next-gen innovations. 5G is not just about faster internet on your phone; it’s about unlocking the full potential of future technologies.

1. Smart Cities and Urban Infrastructure

With 5G, cities can become smarter and more responsive. From intelligent traffic systems that reduce congestion to real-time air quality monitoring, 5G networks enable instant communication between devices and infrastructure.

5Gapplications in urban planning include:

Smart traffic lights that adapt to real-time traffic patterns

Waste management systems that optimize routes

Energy grids that self-regulate based on usage

All of these are examples of 5Ginnovation transforming how cities operate and serve their citizens.

2. Autonomous Vehicles

Self-driving cars rely heavily on real-time data from cameras, sensors, and other vehicles. 5G makes it possible for these vehicles to communicate instantly and react in milliseconds.

The 5Gimpact on transportation includes:

Vehicle-to-vehicle (V2V) and vehicle-to-everything (V2X) communication

Faster decision-making for safety and navigation

Reduced traffic accidents and improved road efficiency

With 5G, autonomous driving moves from theory to everyday reality.

Revolutionizing Industries with 5GApplications

Industries across the board are integrating 5Gapplications to streamline operations, increase efficiency, and improve user experience.

1. Healthcare and Telemedicine

The COVID-19 pandemic accelerated the need for remote healthcare, and 5G is stepping up to meet that demand. With its low latency and high reliability, doctors can now perform remote consultations and even robotic surgeries.

Examples of 5G enables technologies in healthcare:

Real-time remote diagnostics using HD video

Smart ambulances connected to hospital systems

AI-powered wearable health monitors

This 5Ginnovation enhances patient care while expanding access in rural or underserved areas.

2. Manufacturing and Industry 4.0

The manufacturing sector is experiencing a digital revolution known as Industry 4.0. 5G is at the heart of this transformation, enabling smart factories powered by IoT, robotics, and real-time data analytics.

With 5Gapplications in manufacturing, companies benefit from:

Predictive maintenance of equipment

Automated quality control systems

Augmented reality for worker training

Faster data transmission and reliable connectivity mean fewer delays and greater productivity.

Entertainment and Immersive Experiences

5G is redefining how we consume media. Whether it’s streaming in 8K, cloud gaming, or virtual reality, the entertainment world is one of the first to feel the 5Gimpact.

1. Cloud Gaming and AR/VR

With 5G, cloud-based gaming platforms can deliver high-performance gaming without expensive hardware. Similarly, augmented and virtual reality experiences become more seamless and interactive.

This opens doors to:

Virtual concerts and live events

Immersive education and training environments

Real-time multi-user VR collaboration

These 5G enables technologies are making digital experiences more dynamic and engaging than ever before.

Challenges and Considerations

Despite its promise, the road to a fully connected 5G world isn’t without obstacles. Infrastructure costs, regulatory hurdles, and security concerns must all be addressed.

Key challenges include:

High costs of deploying 5G towers and networks

Ensuring privacy and cybersecurity in highly connected environments

Bridging the digital divide so rural and low-income areas aren’t left behind

Still, the global momentum behind 5Ginnovation suggests that these hurdles will be overcome through collaboration between governments, tech companies, and communities.

Conclusion: The Future is Powered by 5G

From healthcare to entertainment, smart cities to autonomous vehicles, the 5Gimpact is rippling through every facet of modern life. As more devices, systems, and services come online, the role of 5Gapplications will only grow, accelerating the adoption of future technologies and unlocking possibilities we’ve only dreamed of.

For innovators, businesses, and everyday users alike, the message is clear: 5G enables technologies that will shape the next decade—and beyond. Embracing this change means stepping into a faster, smarter, and more connected future.

Have you ever suffered a lot because you couldn't reach the hospital on time? That's the situation faced by many individuals across the country. But that's extremely dangerous in the case of some critical patients. Wouldn't it be better if you learned about your health situations coming up in the future? For that, you need to acquire the knowledge of the latest IoT and Big Data technologies and bring it to your use.   What is IoT? IoT is the technology embedded with sensors, computers, and software to exchange data with other devices through the internet. What is Big Data? As the word suggests, big data is the set of extensive data of a particular field. This big data needs to be organized to be used by medical organizations. The Benefits of IoT and Big Data in the Healthcare Sector Include the Following Remote Monitoring is Now Possible Due to IoT IoT and Big data are the advanced technologies that have changed how people receive healthcare services. Healthcare IoT solutions have made remote monitoring possible for the healthcare sector, wherein patients can be monitored even when they are at their home. It has brought healthcare services very close to patients and also reduced the duration of their stay at hospitals. Healthcare IoT Solutions for Patients There are many ways in which IoT is helping patients. One solution is fitness bands and other wireless-connected devices such as blood pressure and heart rate measuring handcuffs. Healthcare providers use these devices to monitor calorie intake, blood pressure variations, etc. Along with all these, they also keep the memo of the appointments. Some wearable technologies also help to monitor the condition of the patients, such as the quality of the air, the number of times he has urinated, etc. This allows the creation of statistical data for individual trends among the population. Remote Monitoring to the Rescue of Old Age People Various devices are created keeping in mind the age and needs of older people. These devices constantly check the patient's blood pressure, heart rate, and sugar level. This type of device is a continuous monitor and activity tracker. They have a fantastic feature to detect the person's activity, such as walking and even detecting the person's fall. These systems are integrated with the system to indicate the physicians in the hospital and emergency contacts in case of a collapse. Some hospitals immediately provide ambulance services to such patients to rectify their situation as soon as possible. Other Monitoring Devices Include: Thermometer Glucometer ECG + Stethoscope Pulse oximeter Big Data for Better Diagnosis Big data consulting is also important for the healthcare sector. It allows the hospitals, clinics, and labs to store the data of each patient. This enables doctors to diagnose and prescribe the proper medicine to patients before any destructive situation arises. Doctors can compare the case history of the patients and get the diagnosis over it from the data stored. Big data Collect a Large Expanse of Data to Help Healthcare in Three Significant Ways Descriptive analytics - Measure the condition of the patients and the resources available for them. Predictive analytics - Uses data to predict outcomes in the future. Prescriptive analytics - Allows for making proactive decisions based on predictions. Big Data keeps the data of billions of people and their health conditions. This data organization allows for predicting the possible epidemic outbreak or particular illness in the area. It also helps improve diagnostic accuracy and formulate personalized medication for patients based on their age, history, and health. To utilize Big Data, hospitals need to get the proper organization of their data and expert assistance to generate regular reports of your data. Cognitive Computing to Find out Solutions to Life-threatening Disease Cognitive Computing, along with the patients' practical information, helps arrive at the diagnosis of life-threatening diseases quickly.

It lessens the time required for research and thinking on finding the diagnosis for the patients. It utilizes lab, clinical, and consumer data to determine the best remedy for the disease. Final Words IoT and big data are very beneficial technologies for healthcare sectors. With these technologies, it is easy to treat your medical conditions. IoT and big data are bringing healthcare services more reachable for everyone. Doctors can use stored and current data to diagnose and treat patients more efficiently in less time.

How RF Antennas are Used in Healthcare: Telemedicine and Beyond

The healthcare business is undergoing a technological transition, and RF (Radio Frequency) antennas play an important role in this revolution. RF antennas are essential in modern healthcare for enabling telemedicine and remote patient monitoring, as well as powering IoT medical equipment and wireless imaging systems. These antennas allow for seamless connection between devices, resulting in accurate and fast delivery of medical data.

In this article, we'll look at how RF antennas are utilized in healthcare, with a focus on telemedicine and other applications, as well as the advantages they provide to medical technology.

The Function of RF Antennas in Healthcare Communication Systems

RF antennas serve as the primary link between medical devices, healthcare practitioners, and patients. They provide wireless communication across several frequency bands, allowing devices to broadcast and receive data reliably. Some of their core roles include:

Data Transmission: Allows for wireless communication between devices such as ECG monitors, infusion pumps, and diagnostic equipment.

Remote monitoring enables real-time tracking of patient vitals, even in remote or rural locations.

IoT Integration: Providing smart medical devices and systems with smooth data sharing.

RF antennas have applications in healthcare, including telemedicine. Telemedicine has evolved as a critical component of modern healthcare, particularly following the COVID-19 pandemic. RF antennas power communication systems, which enable:

Video consultations: High-frequency antennas enable stable video conferencing between patients and doctors.

Remote Diagnostics: Sensors with built-in antennas capture and transmit critical data to healthcare providers.

Wearable Health Devices: Smartwatches with heart rate monitors use RF transmission to deliver health data to telemedicine platforms.

2. Remote patient monitoring (RPM). RPM employs RF antennas to continually monitor patients' vital indicators, including as heart rate, blood pressure, and glucose levels. These antennas ensure consistent data transfer from wearable sensors to healthcare systems, allowing for proactive care and lowering hospital readmissions.

3. Medical IoT devices. IoT in healthcare, often known as the Internet of Medical Things (IoMT), relies largely on RF antennas. Examples include:

Smart Pills: ingestible sensors with small antennas monitor medicine efficacy.

Connected Insulin Pens: Antennas send usage information to healthcare apps.

Hospitals employ RFID antennae to track medical equipment and supplies.

4. Wireless Imaging Systems. Advanced diagnostic instruments, such as MRIs, CT scans, and ultrasound devices, communicate wirelessly with control systems using RF antennas. This reduces the need for large wires while improving operational efficiency.

5. Implantable Medical Devices. Pacemakers and neurostimulators frequently use tiny antennas to interact with external monitoring systems. These antennas must be engineered to work safely within the human body.

6. Emergency Response Systems. In emergency situations, RF antennas enable wireless communication for ambulance telemetry, which sends patient data to hospitals in real time, allowing doctors to plan for the patient's arrival.

Advantages of RF Antennas in Healthcare:

Real-time Data Transmission RF antennas offer quick communication between medical devices and healthcare systems, allowing for faster decision-making.

Enhanced Mobility Wireless communication overcomes the limitations of wired systems, giving patients and healthcare practitioners greater mobility.

Improved patient outcomes. Continuous monitoring and proactive care enabled by RF antennas result in improved health outcomes.

Scalability and Flexibility Wireless technologies can be quickly scaled and adaptable to various healthcare situations without requiring significant infrastructure improvements.

Cost-effective solutions RF antennas reduce hospital visits and enable remote care, resulting in significant cost reductions for both patients and providers.

Challenges and Considerations

Interference Management In a hospital setting with many wireless devices, minimizing RF interference is critical to ensuring reliable connection.

Signal Security Sensitive medical information must be delivered securely to avoid unauthorized access.

Device Miniaturization Wearable and implantable device antennas must be small while still providing enough performance.

Regulatory Compliance RF antennas used in medical devices must meet stringent safety and electromagnetic compatibility standards.

Future of RF Antennas in Healthcare

As healthcare embraces digital transformation, the use of RF antennas will grow. Emerging technologies such as 5G, AI, and sophisticated IoT will expand the capabilities of medical devices, allowing:

URLLC is an ultra-reliable low-latency communication protocol for critical care applications. Smart hospitals feature completely networked gadgets and systems. AI-Driven Diagnostics using real-time data collected via RF antennas.

Conclusion

RF antennas are transforming healthcare by providing wireless connectivity for telemedicine, remote monitoring, IoT devices, and more. Their ability to ensure dependable, secure, and efficient data transfer is vital to the success of current medical devices.

At Eteily Technologies, we specialize in creating high-performance RF antennas for the healthcare and other industries. Whether you want antennas for wearable devices, telemedicine systems, or IoMT applications, we provide unique solutions adapted to your requirements. Contact us today to learn more about how we can help you advance your healthcare innovations!

Forlinx FCU2303 5G Smart Gateway for Smart Ambulances

In modern cities, the medical rescue system is crucial for urban safety. Emergency centers command rescue operations, essential for saving lives. With the advancement of IoT technology, many cutting-edge technologies are gradually integrated into the medical emergency system, enabling ambulances to be networked, digitized, and intelligent. Thus, 5G smart ambulances emerge. 5G-enhanced ambulances look similar to regular ones in appearance. However, by integrating 5G networks into the vehicle, developers instantly endowed it with additional "superpowers".

For instance, 5G-enhanced ambulances can achieve synchronized transmission of multiple high-definition live videos, leveraging 5G's high bandwidth, low latency, and reliability. Based on this, it can synchronously return the medical images, patient signs, illness records and other information of emergency patients to the hospital emergency center without damage, which is convenient for the emergency center to grasp the patient's condition in advance and give professional guidance to the rescuers on the bus.

Forlinx's 5G Smart Gateway FCU2303 provides reliable support for medical ambulance.

Rapid transmission of information

Bridge the gap for medical device information transmission.

Modern ambulances are equipped with advanced medical equipment such as electrocardiogram monitors, ventilators, and defibrillators to enhance rescue efficiency. Various types of diagnostic and therapeutic equipment can efficiently transmit physiological data to the Hospital Information System (HIS) through the multiple Ethernet ports, serial ports, and DI/DO of the FCU2303 industrial-grade smart gateway. This meets the data collection and transmission requirements of ambulances.

Enabling high-definition audio and video consultations

Medical imaging equipment such as cameras, microphones, displays, and ultrasound machines are deployed on the ambulance. Through the FCU2303 industrial-grade smart gateway, information is transmitted, providing real-time, lossless transmission of audio-visual images from the ambulance to the hospital emergency center. This setup offers a high-bandwidth, low-latency, and highly connected secure network, meeting the remote video consultation needs of the ambulance. It aims to secure more time for patients by implementing a rapid rescue and treatment mode where patients essentially “Be in the hospital” upon boarding the ambulance.

Enabling reliable integration of multiple technologies

FCU2303 Smart Gateway, designed based on the NXP LS1046A processor, features a quad-core CPU with a high clock frequency of 1.8GHz. With a fanless design, it ensures stable operation of medical rescue systems for extended periods in environments ranging from -40°C to +85°C;

It supports 5G and 4G modules, which can be easily switched with a single DIP switch. It provides users with high bandwidth, low latency, and large connectivity services. It also supports dual-band Wi-Fi, enabling both STA and AP modes;

FCU2303 supports expandable device storage with PCIe 3.0 high-speed interface, enabling support for solid-state drives (SSDs) using the NVMe protocol (M.2 interface). This meets the requirements for small size, large capacity, and fast speed;

It comes standard with 8 x Gigabit Ethernet ports (flexible configuration of 2/4/6/8 ports, all with independent MAC addresses), 4 RS485 ports, 4 RS485/RS232 multiplexing interfaces, 2 DI (Digital Input), 2 DO (Digital Output), and 1 USB HOST 3.0 port. This ensures the connectivity of various medical devices, enabling full vehicle networking for ambulances;

The software integrates a variety of third-party components including Samba, Lighttpd, Docker, IPSEC, OpenSSL, and Python 3 or higher versions. It supports protocols such as TCP/IP, UDP, DHCP, TFTP, FTP, Telnet, SSH, Web, HTTP, IPtables, and provides an open system API for easy user customization and development.

In the future, smart ambulances based on 5G technology will undoubtedly provide better full-process services for patients, including pre-diagnosis, during diagnosis, and post-diagnosis.

Forlinx Embedded FCU2303 Smart Gateway, which supports the 5G smart ambulance system, fully leverages the leading advantages of 5G technology, including high bandwidth, low latency, and large connectivity. It will undoubtedly effectively and efficiently guarantee the transmission of information for various medical devices. This will assist medical emergency centers in further improving the efficiency and service level of emergency rescue work, enhancing service quality, optimizing service processes and modes, and winning time for rescuing patients’ lives, thereby better-safeguarding health and life.

Originally published at www.forlinx.net.

Ziqitza Healthcare Ltd - Technology and Patient Care in Ambulances

In the rapidly changing landscape of healthcare, the intersection of technology and patient care has witnessed remarkable advancements, particularly in the field of ambulance services. Ziqitza Healthcare ltd, a pioneering organization committed to providing emergency ambulance services, has been at the forefront of integrating cutting-edge technologies to enhance the efficiency and effectiveness of pre-hospital care.

Use of Mobile Health Apps for Patient Monitoring: Mobile health apps designed for patient monitoring play a crucial role in providing real-time insights to healthcare professionals in ambulances. These apps enable paramedics to continuously monitor vital signs, such as heart rate, blood pressure, and oxygen levels, allowing for immediate intervention in case of any irregularities. In a scenario where time is crucial, these apps facilitate prompt decision-making by providing a comprehensive view of the patient's condition.

Furthermore, mobile health apps bridge the gap between ambulance crews and healthcare facilities, ensuring seamless coordination and information exchange. Paramedics can transmit real-time data, including patient history, ongoing treatments, and diagnostic reports, to receiving hospitals, enabling healthcare providers to prepare for the patient's arrival. This enhanced communication not only accelerates the admission process but also ensures that the necessary resources and specialists are ready to address the specific needs of the patient.

Electronic Health Records in Pre-Hospital Care:

In the traditional model of pre-hospital care, paramedics relied on paper-based records, often leading to delays and potential errors in accessing crucial patient information. Ziqitza Healthcare under the leadership of Sweta Mangal has embraced the digital era by incorporating electronic health records (EHRs) into its ambulance services.

EHRs enable seamless and secure access to a patient's medical history, allergies, medications, and other essential information. In emergencies, every second counts, and having instant access to this data allows paramedics to make informed decisions regarding treatment plans, medications, and interventions.

For instance, if a patient is unconscious and unable to provide medical history, Ziqitza's EHR system ensures that the ambulance crew has all the necessary information at their fingertips. This not only improves the accuracy of care but also minimizes the risk of factual and paper errors.

IoT Devices and Wearables for Emergency Response:

The integration of Internet of Things (IoT) devices and wearables in ambulance services represents a groundbreaking shift in emergency response capabilities. Ziqitza Rajasthan has recognized the potential of these technologies in monitoring patients and improving overall outcomes.

IoT devices, such as connected medical sensors, can transmit real-time data on a patient's heart rate, blood pressure, and other vital signs directly to the ambulance crew. This constant flow of information enables paramedics to detect subtle changes in a patient's condition, allowing for proactive interventions and preventing potential complications.

Moreover, wearables equipped with emergency response features can serve as personal distress signals. In the event of an accident or sudden health crisis, individuals can activate these devices to immediately alert Ziqitza's emergency ambulance services. This reduces response times and ensures that help is dispatched promptly to the precise location of the incident.

Conclusion: Ziqitza Healthcare's dedication to leveraging technology for enhanced patient care in ambulances showcases a paradigm shift in emergency medical services. The integration of mobile health apps, electronic health records, and IoT devices not only streamlines processes but also significantly improves the quality of pre-hospital care. As we move forward in the era of digital health, organizations like Ziqitza Health care limited serve as a beacon of innovation, demonstrating the positive impact of technology on patient outcomes. The seamless integration of these technologies not only improves the efficiency of ambulance services but also plays a pivotal role in saving lives during critical moments. The journey towards a technologically advanced healthcare ecosystem, spearheaded by Sweta Mangal Ziqitza, is undoubtedly transforming the landscape of emergency medical and ambulance services for the better.

EXCLUSIVE: How does the HVAC Valves Industry in Global Market attract investment?

The rising integration of connected valves for industrial, commercial and residential sectors is anticipated to fuel the Europe HVAC Valves market growth. The IoT trend is steadily penetrating each and every aspect of the industry. With the emergence of IPv6 and IoT, any product in the world can be assigned with an IP address and thereby brought over the internet. Valves integrated with embedded processor and networking capability to achieve sophisticated monitoring technology which can be coordinated with central control station is thus anticipated to gain traction in the coming times. In order to attain this in industries, industrial valves are connected to data network, coordinating control valve operation with the data available. These initiative by the market player are enhancing the growth of Europe HVAC Valves market.

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Germany is anticipated to leads the HVAC Valves market across the Europe region through the forecast period. Germany is one of the leading producer of automobiles in the world and many major car manufacturing companies are located in the country including Volkswagen, BMW AG, Audi and others. This creates a demand for HVAC system installed in the vehicles. Also, the residential construction sector of the country is rising thus, bolstering the growth of HVAC valves market. This will further propel the growth of manufacturing industry in the country thereby, accelerating the growth of HVAC valves market in the Germany. This bolster the Europe HVAC Valves market on the forecast period. The figure given below highlights the revenue share of UK in the Europe HVAC Valves market in the forecast period:

The service charge of an air ambulance is higher in the current scenario owing to various factors. The reduction in service prices for respective clients would enable the providers to experience growth in their business and attract population of all income groups. This is anticipated to support the growth of Europe HVAC Valves market in the future.

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EUROPE HVAC Valves – MARKET SEGMENTATION

By Product

·         Ball Valve

·         Globe Valve

·         Butterfly Valve

·         Pressure Independent Valve

By Application

·         Residential

·         Industrial

·         Commercial

Company Profiles

1. AVK Group A/S

2. Belimo Holding AG

3. Danfoss A/S

4. Flowserve Corporation

5. Honeywell International Inc.

6. Johnson Controls International Plc.

7. Mueller Industries, Inc.

8. Samson Controls, Inc.

9. Schneider Electric SE

10. Siemens AG

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Palo Alto Networks Announces Medical IoT Security to Protect Connected Devices Critical to Patient Care

As healthcare providers use digital devices such as diagnostic and monitoring systems, ambulance equipment, and surgical robots to improve patient care, the security of those devices is as important as their primary function. Palo Alto Networks announced Medical IoT Security — the most comprehensive Zero Trust security solution for medical devices — enabling healthcare organizations to deploy and manage new connected technologies quickly and securely. Zero Trust is a strategic approach to cybersecurity that secures an organization by eliminating implicit trust by continuously verifying every user and device. Anand Oswal, Senior Vice President of Products, Network Security at Palo Alto Networks, said, “The proliferation of connected medical devices in the healthcare industry brings a wealth of benefits, but these devices are often not well secured. For example, according to Unit 42, an alarming 75% of smart infusion pumps examined on the networks of hospitals and healthcare organizations had known security gaps. This makes security devices an attractive target for cyberattackers, potentially exposing patient data and ultimately putting patients at risk.” While a Zero Trust approach is critical to help protect medical devices against today's innovative cyberthreats, it can be hard to implement in practice. Through automated device discovery, contextual segmentation, least privilege policy recommendations and one-click enforcement of policies, Palo Alto Networks Medical IoT Security delivers a Zero Trust approach in a seamless, simplified manner. Medical IoT Security also provides best-in-class threat protection through seamless integration with Palo Alto Networks cloud-delivered security services, such as Advanced Threat Prevention and Advanced URL Filtering. The new Palo Alto Networks Medical IoT Security uses machine learning (ML) to enable healthcare organizations to: - Create device rules with automated security responses: Easily create rules that monitor devices for behavioral anomalies and automatically trigger appropriate responses. For example, if a medical device that typically only sends small amounts of data unexpectedly begins to use a lot of bandwidth, the device can be cut off from the internet and security teams can be alerted. - Automate Zero Trust policy recommendations and enforcement: Enforce recommended least-privileged access policies for medical devices with one click using Palo Alto Networks Next-Generation Firewalls or supported network enforcement technologies. This eliminates error-prone and time-consuming manual policy creation and scales easily across a set of devices with the same profile. - Understand device vulnerabilities and risk posture: Access each medical device’s Software Bill of Materials (SBOM) and map them to Common Vulnerability Exposures (CVEs). This mapping helps identify the software libraries used on medical devices and any associated vulnerabilities. Get immediate insights into the risk posture of each device, including end-of-life status, recall notification, default password alert and unauthorized external website communication. - Improve compliance: Easily understand medical device vulnerabilities, patch status and security settings, and then get recommendations to bring devices into compliance with rules and guidelines, such as the Health Insurance Portability Accountability Act (HIPAA), General Data Protection Regulation (GDPR), and similar laws and regulations. - Verify network segmentation: Visualize the entire map of connected devices and ensure each device is placed in its designated network segment. Proper network segmentation can ensure a device only communicates with authorized systems. - Simplify operations: Two distinct dashboards allow IT and biomedical engineering teams to each see the information critical to their roles. Integration with existing healthcare information management systems, like AIMS and Epic Systems, help automate workflows. Healthcare organizations are using Palo Alto Networks products to secure the devices that deliver cutting-edge care to millions of patients all over the world. “Establishing and maintaining acute situational awareness of the Internet of Medical Things (IoMT) environment is paramount to establishing an effective enterprise cybersecurity program. The ability to accurately detect, identify and respond to cyber threats is critical to ensuring minimal operational impact to clinical operations during a cyber event,” said Tony Lakin, CISO, Moffitt Cancer Center. “Palo Alto Networks IoT capability seamlessly integrates with our continuous monitoring processes and threat-hunting operations. The platform consistently provides my teams with actionable information to allow them to proactively manage the threat surface of our medical device portfolio.” "With thousands of devices to manage, healthcare environments are extremely complex and require intelligent security solutions capable of doing more. Palo Alto Networks understands this requirement and is leveraging machine learning (ML) for Medical IoT security. Adding intelligence will enable providers to improve operational efficiency, which will enhance patient and practitioner experience and alleviate the burden of an ongoing IT skills shortage," said Bob Laliberte, principal analyst, ESG. "Healthcare providers continue to be high-value targets for attackers. This reality, combined with the diversity of medical IoT devices and their inherent vulnerabilities, points to a real need for device security that is purpose-built for healthcare use cases. The ability to defend against threats targeting critical care devices while maintaining operational availability and strengthening the alignment of device governance responsibilities between IT and Biomed engineering teams is quickly becoming a necessity for the protection of patient data and lives," said Ed Lee, research director, IoT and Intelligent Edge Security, IDC. Read the full article

Digital healthcare adoption requires better security

Though the UK public is taking the right step in embracing digital healthcare, more trust is needed in the security of digital services

  Living anything like a normal life in the modern world requires us to trust that the companies and government departments that hold data on us have our best interests in mind and are protecting that data from those who would misuse it. Our recent research has shown that 63% of the UK public would use digital services to access healthcare when possible, however less than half (46%) consider the information they send to their providers to be secure.

Therefore, it is important that we explore this further and really understand whether people really trust the important digital services that they interact with.

  Connected hospitals and healthcare apps

  Following the onset of the COVID-19 pandemic in early 2020, many hospitals and general practitioner (GP) offices switched to treating patients via phone consultations, video chats and other digital means where possible. The NHS App has now been downloaded over 16 million times and was pivotal in giving the government oversight into the spread of COVID-19. Behind the scenes, there has been a move to digitalise the systems that allow various NHS offices to share information and centralise records.

What’s more, NHS Digital announced in July this year that a 5G connected hospital trial is to go live at two wards within the trust, where they will be testing and evaluating the efficiency, safety, and security of 5G connected devices. The goal is to optimise timesaving for clinicians, improvement of patient records, and applications that enable the use of devices to monitor patients’ vital signs and to digitally update records. Through the combined use of 5G and eHealth IoT, significant and life-saving improvements can be achieved. This will be accomplished by utilising Virgin Media O2 Businesses’ private 5G network in order to deliver dedicated, high-speed data meaning that clinicians will not need to use the hospital’s WiFi.

  The power of 5G: but is it secure?

  This innovation provides insight as to how 5G has the potential to transform all the critical components in many areas of healthcare and can include high-definition remote operations, transferring large medical files, connected ambulances to help to treat patients in transit, devices for real-time monitoring and continued remote support to patients.

However, having sensitive health records stored digitally could potentially open them up to being compromised. 70% of the public surveyed revealed that they worry to some level about the security of their data when using this type of tech. Although, when we look at the results of a similar question asked about healthcare we find a different story – 46% believe that their data held by the NHS is secure. So, why is there a discrepancy in the level of trust?

In general, the UK public’s widespread support of the NHS as an institution is apparent. One in ten (89%) believe that the government should support a national health service that is tax-funded and free at the point of use. This is despite frequent press reports of long waiting times and a service that has been ‘pushed to the brink’ by years of austerity. As such, they would not feel comfortable sharing personal information digitally with healthcare providers that are not part of the NHS.

Therefore, as technology progresses, solutions need to be in place for transmitting and accessing extremely sensitive healthcare data and devices under highly secured channels. Devices need to ‘know and trust’ each other and so digital identity becomes paramount.

  Achieving secured data sharing through trusted devices and encrypted data

  As 5G becomes more widely available, the healthcare industry is fast becoming a ‘smart health environment’. As technology progresses, solutions need to be in place for transmitting and accessing extremely sensitive healthcare data and devices under highly secured channels.

For example, when components are enhanced through cryptographic key injection during the manufacturing process, the path to secure identity begins. Key injection gives every device an identity and needs to be generated by a Hardware Security Module (HSM).

What’s more, eHealth devices are operated within public key infrastructures (PKI) ensuring confidentiality, integrity, authenticity, and non-repudiation of sensitive information. The use of PKI-based device certificates ensures online trust, privacy, and security in the world of connected devices and therefore should be managed securely and centrally.

  A positive picture of trust in the digital age

  Clearly, there is the need to do more with less, something that digital technology is well placed to achieve. Given that the public has a great deal of trust in the NHS, this is something that the research shows they will accept – so long as the digital systems that the health service uses remains secure.

Overall, our recent research shows a positive picture of trust in the digital age, although work needs to be done to match that level of trust to the enthusiasm the public has for digital services.

Technical Doctor's insight:

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5G In Healthcare Market Objectives of the Study Includes Research Methodology and Assumptions and Forecast by 2030

The 5G in healthcare market is valued at an estimated USD 379.05 Million in 2022 and is projected to reach USD 35376.04 Million by 2030, growing at a CAGR of 76.3%.

The fifth generation of mobile communication technology is known as 5G. Transmission speed and network capacity have improved with each new generation's standards and technologies. By enabling the necessary levels of connection for a new health ecosystem that can precisely, efficiently, cost-effectively, conveniently, and on a significant scale address the demands of patients and providers, 5G marks a significant advancement in cellular technology and in healthcare.

All of the essential elements of healthcare could be transformed and improved by 5G networks. The usage of 5G networks in healthcare has grown over the past several years, and its applications have been bolstered by developments in robotics, IoT, and AI that will transform the healthcare systems into a newly connected ecosystem. The fastest conveyance of data is the key issue facing healthcare systems. The healthcare sector generates enormous amounts of data.

5G in Healthcare Market: Segmental Analysis

Based on Component

Connectivity

Hardware

Services

Based on Application

Connected Ambulance

AR or VR

Asset Tracking for medical devices

Connected Medical Devices

Remote Patient Monitoring

Smart Wearables

Tele-Robotics

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Top Key Players:-

Company Name_2

AT&T

Samsung Electronics

Ericsson

NEC

Huawei Technologies

Capsule Technologies

T‑Mobile USA, Inc.

Cisco Systems, Inc. is

Telus Communications Inc.

Telit

Orange S.A

Telefónica, S.A.

SAMSUNG

BT Group

NEC Corporation

Qualcomm Technologies, Inc.

NTT Docomo Inc.

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5G in Healthcare Market 2022- Trends, Comprehensive Analysis, Industry Latest News and Forecast to 2025 |Research Informatic

Many of the emerging connectivity needs of healthcare providers are addressed by 5G technology. These include faster speeds, lower latency, increased connection density, and the ability to guarantee quality of service (QoS), all of which are required to create new use cases.

The Global 5G in Healthcare Market is expected to reach $3,092 million by 2026, growing at a CAGR of 61.2 percent between 2022 and 2026.

The 5G in Healthcare Market reports give a far-reaching outline of the worldwide market size and share. It gives the information historic and six years forecast data which incorporates information on financial information of worldwide market. Key partners can refer the insights, tables and figures highlighted in this 5G in Healthcare research report. Nitty gritty Study of Market incorporates evaluation of Porter’s Five Forces system, Pestle Analysis, SWOT analysis with Opportunity.

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 Some of the Top companies influencing in this Market includes:

·         AT&T

·         Ericsson

·         Vodafone

·         Samsung

·         SK Telecom Co.

·         Airtel

·         Huawei Technologies Co. Ltd.

·         Cisco

·         Sierra Wireless

·         Qualcomm

 Description:

The report provides defines and describes the market by gathering the relevant and unbiased information of the market. The research provides the authentic data that help to solve the upcoming obstacles in the market.

As the global 5G in Healthcare market is segmented based on various parameters, an in-depth classification of the market is also mentioned; elements impacting the market’s growth are studied in detail to understand the report precisely. Moreover this, profiles of some of the leading players operating in the global market are included in the report.

Segmentation of 5G in Healthcare Market:

The report segments the market by the type of the product, Application of the product and the end users. Segmentation of the market enables the client to understand the market clearly and deeply.

 By Type

·         Predictive

·         Preventive

·         Personalized

·         Participatory

By Application

·         Connected Medical Devices

·         Remote Patient Monitoring

·         AR/VR

·         Connected Ambulance

·         Others

By Ancillary

·         IoT

·         AI and ML

·         Robotics

·         Others

By End-users

·         Providers

·         Payers

·         Pharmaceutical Companies

Geography

·         North America

·         Europe

·         APAC

·         RoW

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 The study presents an evaluation of the factors that are expected to inhibit or boost the progress of the global 5G in Healthcare market. The global 5G in Healthcare market has been examined thoroughly on the basis of key criteria such as end user, application, product, technology, and region.

An analysis has been provided in the report of the key geographical segments and their share and position in the market. The estimated revenue and volume growth of the global market has also been offered in the report.

Classified by region, this research report is segmented into many key sections, with production, consumption, revenue, market share and progress rate of 5G in Healthcare in these regions, from 2022 to 2029, covering the regions like North America, Europe, China, Japan, Southeast Asia and    India.

Highlights of the report:

The research study is derived from primary and secondary resources which consist of qualitative and quantative analysis

 It provides the information about the drivers and restraints of the market.

It presents a dynamic vision to conclude and research market size, key developments and competitive information.

It highlights the current scenario of the businesses along with historical records.

It focuses on some significant factors that are responsible for the progress of the business.

Buy the Full Research Report of Global 5G in Healthcare Market @: https://researchinformatic.com/reports/5g-in-healthcare-market-237

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5G in Healthcare Market Maximum Benefit & Growth of Key Players 2028

5G stands for the fifth generation of mobile communication technology. With each generation’s new technology and standards, there have been improvements in transmission speed and network capacity. 5G represents a big leap in cellular technology and in healthcare by providing essential levels of connectivity to enable a new health ecosystem, one that can meet the needs of patients and providers accurately, efficiently, cost-effectively, conveniently, and at a substantial scale. This massive network will include billions of low-bitrates and low-energy connected health monitoring devices, remote sensors, and clinical wearables, with 5G providing a backbone infrastructure for IoT.

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The 5G in healthcare market is valued at an estimated USD 215 million in 2021 and is projected to reach USD 3,667 million by 2026, at a CAGR of 76.3% during the forecast period. The increasing adoption of telehealth and robotics surgery due to COVID-19 and the rising adoption of 5G-enabled wearable medical devices for real-time remote patient monitoring are key factors driving the growth of this market. The ability of 5G technology to transmit large patient data files quickly, advancements in telecommunication, and the availability of low-cost sensors are other major factors that are driving the growth of this market. However, the high cost of deployment of the 5G network is expected to restrain the growth of this market.

In this report, the 5G in healthcare market is segmented into component, application, end user, and region.

“The Hardware segment accounted for the largest market share in 2020.”

Based on component, the 5G in healthcare market is segmented into hardware, services, and connectivity. The hardware segment accounted for the largest share of the 5G in healthcare market in 2020. This segment is projected to reach USD 1,871.7 million by 2026, at a CAGR of 76.0% during the forecast period. The large share of this segment can primarily be attributed to the need for frequent upgradation or replacement to make optimal use of the latest software available in the market.

“The Connected Medical Devices segment accounted for the largest market share in 2020.”

Based on application, the 5G in healthcare market is segmented into remote patient monitoring, connected ambulance, connected medical devices, asset tracking for medical devices, and AR/VR. The connected medical devices segment accounted for the largest share of the 5G in healthcare market in 2020. This application segment is projected to reach USD 1,405.3 million by 2026 from USD 94.5 million in 2021, at a CAGR of 71.6% during the forecast period. The large share of this segment can be attributed to the growth in the telehealth market and the growing inclination towards home healthcare. The high burden of COVID-19, increasing healthcare costs, strong government support and initiatives, and the growing focus on the quality of care and patient safety are further driving the market for connected medical devices in the 5G in healthcare market.

“The Healthcare Providers  segment accounted for the largest market share in 2020.”

Based on end users, the 5G in healthcare market is segmented into healthcare providers, healthcare payers, and other end users. The healthcare providers segment accounted for the largest share of the 5G in healthcare market in 2020. This end-user segment is projected to reach USD 3,011.1 million by 2026 from USD 170.4 million in 2021, at a CAGR of 77.6% during the forecast period. The large share of this segment can be attributed to the rising need for an efficient healthcare system, growing patient volume, increasing number of hospitals and ambulatory care centers, growth in telehealth, rising adoption of 5G-enabled wearable medical devices, and the rising demand for better technologies that help in the easy transfer of large data files.

“Asia Pacific was the largest regional market for 5G in healthcare market in 2020“

The global 5G in healthcare market is segmented into five major regions, namely, North America, Europe, the Asia Pacific, Latin America, and the Middle East & Africa. In 2020, Asia Pacific accounted for the largest share of 33.8% of the global market. The APAC is the largest and fastest-growing region in the 5G in healthcare market. This growth can be attributed to the significant adoption of advanced technologies, increasing number of IoT-enabled medical devices, continuously enhancing network connectivity, and government initiatives for IoT.

The prominent players in the 5G in healthcare market are AT&T (US), Verizon (US), China Mobile Limited (China), Qualcomm (US), T-Mobile (US), Ericsson (Sweden), Telit (Poland), Telus (Canada), Vodafone (UK), Nokia (Finland), Samsung (South Korea), Deutsche Telekom AG (Germany), Orange S.A. (France), SK Telecom Co., Ltd. (South Korea), BT Group (UK), NTT DOCOMO (UK), NEC Corporation (Japan), Telefónica (Spain), Airtel (India), Huawei Technologies Co., Ltd. (China), and Cisco (US). These companies adopted strategies such as service launches, business expansions, agreements, partnerships, collaborations, and acquisitions to strengthen their presence in the 5G in healthcare market.

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Explore the benefits, challenges and Applications of IoT (Internet of Things) in Healthcare Industry

Internet of Things or IoT is a common term that most of us are aware of. IoT has revolutionized the healthcare sector and has changed the way the healthcare industry used to function. IoT in healthcare applications helped remote monitoring and seamless health management. Today, we find integration of IoT-enabled medical devices like IoT-enabled analytics platforms, IoT healthcare sensors, etc.

This blog would help you learn about the benefits of the Internet of Things for healthcare. Also, you will learn about its applications, challenges, and how it helped improve patient care, automate processes, and reduce costs by using IoT-based online smart healthcare solutions.

Benefits of The Internet of Things For Healthcare

To automate health care systems to improve patient care, enhance overall efficiency, medical professionals are investing in IoT app development to leverage IoT technology.

1. Facilitates Remote Tracking of Patient’s Health

Today, we use various medical devices to check blood pressure, blood glucose levels, etc. All this is possible only because of IoT technology and it helps us to do so pre-diagnosis before visiting the doctor. These devices fetch the results in a mobile app and they can be shared with the doctor. Also, the patients can relax if there are no health issues while nurses and doctors can access the healthcare data, monitor the stats and disease progress, share reports and spare more time for more patients.

2. Getting On-time Notifications

One can install medical devices, smartphone apps and IoT-enabled analytics platforms to track patients’ health and other developments. It means you can get real-time alerts or notifications.

It helps take action if any problem or symptoms persist as the doctors would receive notification through the web, mobile app, or email.

3. Offer Remote Medical Assistance

The main benefit of the Internet of Things in healthcare is the online smart healthcare solutions it offers to connect doctors and patients to resolve issues related to an emergency. It helps healthcare services to manage patient care remotely and help them get medical facilities like an ambulance on time.

4. Extract patient data for medical research

When it comes to the role of the Internet of Things in healthcare, it helps extract huge chunks of data that can be further sent and processed using analytics tools. This data is used to create stats reports, monitor patient progress, check symptoms, and help scientific research in different areas of the healthcare industry. This helps doctors get a better picture of the disease to enhance health management through real-time data through IoT healthcare sensors and linked devices.

5. Helps smart drug monitoring

The healthcare setups need higher drug consumption. It often leads to issues due to theft or lack of drug supplies. So, both these factors need to be monitored and recorded. With the introduction of IoT applications in medicine , it is easy to resolve such problems.

Internet of Things In Healthcare: Applications, Benefits, and Challenges

Internet of Things or IoT is a common term that most of us are aware of. IoT has revolutionized the healthcare sector and has changed the way the healthcare industry used to function. IoT in healthcare applications helped remote monitoring and seamless health management. Today, we find integration of IoT-enabled medical devices like IoT-enabled analytics platforms, IoT healthcare sensors, etc.

This blog would help you learn about the benefits of the Internet of Things for healthcare. Also, you will learn about its applications, challenges, and how it helped improve patient care, automate processes, and reduce costs by using IoT-based online smart healthcare solutions.

Benefits of The Internet of Things For Healthcare

To automate health care systems to improve patient care, enhance overall efficiency, medical professionals are investing in IoT app development to leverage IoT technology.

1. Facilitates Remote Tracking of Patient’s Health

Today, we use various medical devices to check blood pressure, blood glucose levels, etc. All this is possible only because of IoT technology and it helps us to do so pre-diagnosis before visiting the doctor. These devices fetch the results in a mobile app and they can be shared with the doctor. Also, the patients can relax if there are no health issues while nurses and doctors can access the healthcare data, monitor the stats and disease progress, share reports and spare more time for more patients.

2. Getting On-time Notifications

One can install medical devices, smartphone apps and IoT-enabled analytics platforms to track patients’ health and other developments. It means you can get real-time alerts or notifications.

It helps take action if any problem or symptoms persist as the doctors would receive notification through the web, mobile app, or email.

3. Offer Remote Medical Assistance

The main benefit of the Internet of Things in healthcare is the online smart healthcare solutions it offers to connect doctors and patients to resolve issues related to an emergency. It helps healthcare services to manage patient care remotely and help them get medical facilities like an ambulance on time.

4. Extract patient data for medical research

When it comes to the role of the Internet of Things in healthcare, it helps extract huge chunks of data that can be further sent and processed using analytics tools. This data is used to create stats reports, monitor patient progress, check symptoms, and help scientific research in different areas of the healthcare industry. This helps doctors get a better picture of the disease to enhance health management through real-time data through IoT healthcare sensors and linked devices.

5. Helps smart drug monitoring

The healthcare setups need higher drug consumption. It often leads to issues due to theft or lack of drug supplies. So, both these factors need to be monitored and recorded. With the introduction of IoT applications in medicine , it is easy to resolve such problems.

Simply saying, Internet of Things (IoT) is the idea of basically connecting any device with an on and off button to the Internet. This contains everything from mobile phones, Televisions, washing machines, Air conditioners, bulbs, wearable devices and also almost anything else you can think of. It is a Huge Network of connecting things and people. So, if you are a new comer, the best thing you can do is work on some real-time IoT Based Projects.

Why IoT Based Projects are Important?

There was a sudden increase in the number of users of the internet over the past decade. This made the Internet a part of our life. Also Internet of Things (IoT) is the latest and emerging internet technology. With this technology we can connect, interact and command any Device using the Internet. Almost any physical object can also transform into an Internet of Things device if it can connect to the internet.

IoT can apply in different areas like health, transportation, security, entertainment and many others. Various Industrial organizations are also using IoT to operate more efficiently, understand customers for a better customer service, improve decision-making and increase the value of the business.  Also, IoT Projects is an inspiration to students who wish to learn more about this technology.

Starting with Projects is the best thing beginners can do

Pantech eLearning is an Online Learning Service provider based in Chennai. We are providing projects on Internet of Things. Our IoT Based Projects leads you to the wonderful world of IoT and its amazing applications.

Given below is the Top Internet of Things Projects we are providing:

Online Bus Tracking System

In this paper we present a system which kept stationary at the bus-stand and also a system which kept at bus that can effectively help the public to track the bus.

Blind People Navigation System

This projects aims to design and also implement a deep learning based vision assistant module for the visually impaired.

Driver Warning System Using BCI

A mobile system design that detects the distractions of drivers via EEG signals is proposed.

Smart ATM Security

In this proposed system, not only the valid card holder is allowing and also only by the knowledge of account holder any one can enter into the ATM by using account holders ATM card. If any unauthorized person is inserted ATM card, their picture with one OTP will be sent to account holders mail.

Automatic Ambulance Rescue System

The ambulance is controlled by the central unit which furnishes the scantest route to the ambulance and also controls the traffic light according to the ambulance location.

Baggage tracking and handling by RFID in Airport

A system that can trace bags depends on a unique identity given by a RFID system.

Smart Energy Meter

Environmental sensors embed with ZigBee router modules are distribute to different locations to collect the environmental data.

Smart band for Monitoring Health

This paper proposes a wearable sensor node that enables the implementation of an autonomous biomedical monitoring system.

Wet and Dry Waste Segregation

Solid waste and also electronic waste materials can be segregate to automatically those are obtaining from each house in cities or town using IOT.

Digital Door Lock With Mail Alert

The goal of this paper is to design and also implement a home security system by integrating smart phone and home network service in the absence of residents.

Visit our Website and Book your Projects Now.