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Smart lighting
Arivon Technologies enables to explore the latest trends on Smart Lighting and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
SMART LIGHTING
The combination of smart lights and software program used to set up configuring an installation as to behave as you want when an event occurs.
It is a lighting technology designed for energy efficiency. This may include high efficiency fixtures and automated controls that make adjustments based on conditions such as occupancy or daylight availability. Lighting is the deliberate application of light to achieve some aesthetic or practical effect
Working:
Smart lighting generally uses mesh networking, where each smart bulb wirelessly connects to its nearest one. That network is controlled by a hub that plugs into your router, enabling your other networked devices - such as your phone or tablet - to communicate with your bulbs.
You’ll often find that smart light systems can also be accessorized with additional items such as dimmer switches or motion detectors, and in some cases they can be linked to the service to create complex rules that trigger particular recipes for particular things.
Uses:
Smart lighting is a good way which enables to minimize and save energy by allowing the householder to control remotely cooling and heating, lighting, and the control of appliances.
This ability saves energy and provides a level of comfort and convenience. From outside of the traditional lighting industry, the future success of lighting will require involvement of a number of stakeholders and stakeholder communities.
The concept of smart lighting also involves utilizing natural light from the sun to reduce the use of man-made lighting, and simple concept of people turning off lighting when they leave a room.
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Facial recognition
Arivon Technologies enables to explore the latest trends on Facial Recognition and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Facial Recognition
Face recognition describes a biometric technology that attempts to establish an individual’s identity. Also known as facial recognition or face detection, the process works using a computer application that captures a digital image of an individual’s face (sometimes taken from a video frame) and compares it to images in a database of stored records.
How Facial Recognition Systems Work:
Anyone who has seen the TV shows "Las Vegas" has seen facial recognition software in action. In any given episode, the security department at the fictional Montecito Hotel and Casino uses its video surveillance system to pull an image of a card counter, thief or blacklisted individual. It then runs that image through the database to find a match and identify the person. By the end of the hour, all bad guys are escorted from the casino or thrown in jail. But what looks so easy on TV doesn't always translate as well in the real world.
The Police Department in many countries has installed cameras equipped with facial recognition technology in their Cities to cut down on crime in the area.
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IIOT
Arivon Technologies enables to explore the latest trends on Industrial Internet of Things and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Industrial internet of things (IIoT):
What is Industrial Internet of Things?
Internet of Things no more needs any introduction. When these IoT capabilities are implemented in the Industrial and Manufacturing space, it becomes Industrial IoT. This technology is an amalgamation of different technologies like machine learning, big data, sensor data, M2M communication, and automation that have existed in the industrial backdrop for many years.
Evolution of IIoT:
Industry 1.0 (1784) :
The invention of steam engines kick started the Industry 1.0. However, the manufacturing was purely labor oriented and tiresome.
Industry 2.0 (1870):
The first assembly line production was introduced. This invention was a big relief for the workers as their labor was minimized to the possible extent.
Industry 3.0 (1969):
Involved advancement of electronic technology and industrial robotics.
Industry 4.0 (2010) :
The vision of connected enterprise through interconnecting industrial assets through the internet was fulfilled with the introduction of Industry 4.0.
Advantages of Industrial IoT:
Predictive & Proactive maintenance.
Real-Time Monitoring.
Asset/Resource Optimization.
Remote Diagnosis.
Drivers of IIoT:
Technology: Smart Sensors, Robotics & Automation, Augmented/Virtual reality, Big Data Analytics, Cloud Integration, Software applications, Mobile, Low power Hardware devices and Scalability of IPv6-3.4X 10^38 IP address, etc.
Customer Behavior: The edge that IIoT gives to enterprises over their competitor helps them achieve better customer satisfaction and retention through value addition.
Macro-Economic Drivers: Government policies like Industry 4.0, Smart Factories, Make In India, Make In China 2025 & Smart Cities, Japan’s Industrial Value Chain Initiative Foum, Support of Green initiatives, Rising Energy & crude oil prices, Favorable FDI policies, Policies by regulatory bodies, etc.
Industrial Internet of Things: The Magic wand for the Economy:
The endless unfolding of new technologies have added up to a huge list of the “Next Big Thing”. However not every evolving technology has the potential to break through the business and social landscape.
Industrial IoT Applications:
Industrial Internet of Things (IIoT) is an ever growing and rapidly increasing sector that accounts for most of the share of IoT spending in the global market.
Digital/Connected Factory.
Facility Management.
Production Flow Monitoring.
Inventory Management.
Plant Safety and Security.
Quality Control.
Packaging Optimization.
Logistics and Supply Chain Optimization.
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Sports Artificial Intelligence
Arivon Technologies enables to explore the latest trends on Sports Artificial Intelligence and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Sports Artificial Intelligence
Artificial Intelligence is defined as oftware that is capable of making its own conclusions on the way of reaching a goal,which is having a lot of applications in sports ,studying people movements and sports and player analysis and training . Many sports teams/brands already use AI as a tool. Artificial intelligence can autonomously:
Study player data and generate player specific context
Planning sports strategies and playground ,study and analyse teams and matches.
track player performance on the ground and training
track athlete performance, improve health and prevent fatigue or injury.
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Internet of applications
Arivon Technologies enables to explore the latest trends on Internet Applications and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Internet Applications
What does it mean-Internet Applications?
The internet is a globally connected network system that uses TCP/IP to transmit data via various types of media. The internet is a network of global exchanges – including private, public, business, academic and government networks – connected by guided, wireless and fiber-optic technologies.
The terms internet and World Wide Web are often used interchangeably, but they are not exactly the same thing; the internet refers to the global communication system, including hardware and infrastructure, while the web is one of the services communicated over the internet.
Internet applications:
We can roughly separate internet applications into the following types: online media, online information search, online communications, online communities, online entertainment, e-business, online finance and other applications.
Applications of internet:
The internet is treated as one of the biggest invention. It has a large number of uses.
Communication
Job searches
Finding books and study material
Health and medicine
Travel
Entertainment
Shopping
Stock market updates
Research
Business use of internet: different ways by which internet can be used for business are:
Information about the product can be provided can be provided online to the the customer.
Provide market information to the business
It help business to recruit talented people
Help in locating suppliers of the product.
Fast information regarding customers view about companies product
Eliminate middle men and have a direct contact with contact with customer.
Internet applications:
Network connection
Network managers
VPN clients
Proxy servers
Anonymizing networks
Web browsers
Console
Graphical
Web servers
ACME clients
File sharing
Download managers
1 .Console
2 .Graphical
Cloud storage servers
Cloud synchronization clients
FTP
1 .FTP clients
2 .FTP servers
clients Graphical
networks Paste
Communication
Email clients
1. Console
2. Graphical
Mail servers
Mail retrieval agents
Instant messaging clients
1. SIP clients
2. Matrix clients
3. Tox clients
4. Server less (decentralized) clients
5. Other IM clients
Instant messaging servers
1. IRC servers
2. XMPP servers
3. SIP servers
4. Other IM servers
Collaborative software
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What is Smart meter ?
Arivon Technologies enables to explore the latest trends on Smart meter and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Smart Meter
A smart meter is an electronic device that records consumption of electric/any energy and communicates the information to the electricity supplier for monitoring and billing.
How smart meters work:
Smart meter replace your old gas and electric meters and take automatic and accurate readings which you can see in pounds and pence on your in home display. You’ll be able to monitor your energy use and only pay for what you use.
Applications of smart meters :
Services for monitoring and improving energy efficiency of end use and dispersed generation, Customer information feedback.
End use energy management.
Tariff Setting (Time of Use, Maximum Demand, Seasonal).
Energy Saving.
Demand response for electricity market and for network operation support, peak load limitation.
Smart homes, home automation, remote control of appliances by customer.
Connect, disconnect, limit load remotely.
Load analysis, modelling and forecasting (for energy markets, network operation and planning, energy saving etc.).
Settlement and billing.
Virtual Power Plant, embedded renewables and cogeneration.
Improving competition and efficiency in energy markets.
Fraud detection.
Providing information for authorities and researchers.
Meter management.
State estimation of power distribution networks.
Monitoring of power quality and reliability.
Prepayment.
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IOT
Arivon Technologies enables to explore the latest trends on Internet of things and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Internet of things (IoT)
The Internet of things (IoT) is the network of physical devices, vehicles, home appliances, and other items embedded with electronics, software, sensors, actuators, and connectivity which enables these things to connect, collect and exchange data, creating opportunities for more direct integration of the physical world into computer-based systems, resulting in efficiency improvements, economic benefits, and reduced human exertions.
How does IoT work?
The Internet of Things (IoT), also sometimes referred to as the Internet of Everything (IoE), consists of all the web-enabled devices that collect, send and act on data they acquire from their surrounding environments using embedded sensors, processors and communication hardware.
Applications:
1. Smart home
Smart Home clearly stands out, ranking as highest Internet of Things application on all measured channels. More than 60,000 people currently search for the term “Smart Home” each month.
2. Wearables
Wearables remains a hot topic too. As consumers await the release of Apple’s new smart watch in April 2015, there are plenty of other wearable innovations to be excited about
3. Smart City
Smart city spans a wide variety of use cases, from traffic management to water distribution, to waste management, urban security and environmental monitoring
4. Smart grids
Smart grids is a special one. A future smart grid promises to use information about the behaviors of electricity suppliers and consumers in an automated fashion to improve the efficiency, reliability, and economics of electricity.
5. Industrial internet
The industrial internet is also one of the special Internet of Things applications.
6. Connected car
The connected car is coming up slowly.
7. Connected Health
Connected health remains the sleeping giant of the Internet of Things applications.
8. Smart retail
Proximity-based advertising as a subset of smart retail is starting to take off.
9. Smart supply chain
Supply chains have been getting smarter for some years already.
10. Smart farming
Smart farming is an often overlooked business-case for the internet of Things because it does not really fit into the well-known categories such as health, mobility or industrial.
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Test automation
Arivon Technologies enables to explore the latest trends on Test Automation and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Test Automation:
What is Test Automation?
Software Test automation makes use of specialized tools to control the execution of tests and compares the actual results against the expected result. Usually, regression tests, which are repetitive actions, are automated.
Testing Tools not only helps us to perform regression tests but also helps us to automate data set up generation, product installation, GUI interaction, defect logging, etc. Automation tools are used for both Functional and Non-Functional testing.
Why Automated Testing?
Every software development group tests its products, yet delivered software always has defects. Test engineers strive to catch them before the product is released but they always creep in and they often reappear, even with the best manual testing processes. Test Automation software is the best way to increase the effectiveness, efficiency and coverage of your software testing.
Benefits of Automation Testing:
Fast: Runs tests significantly faster than human users.
Repeatable: Testers can test how the website or software reacts after repeated execution of the same operation.
Reusable: Tests can be re-used on different versions of the software.
Reliable: Tests perform precisely the same operation each time they are run thereby eliminating human error.
Comprehensive: Testers can build test suites of tests that covers every feature in software software application.
Programmable: Testers can program sophisticated tests that bring hidden information.
Step Automation Testing Process to Start Test Automation:
Step 1. Convince the Management
Step 2. Finding Automation tool experts
Step 3. Using the correct tool for automation
Step 4. Analyzing various applications to determine those which are best suited for automation
Step 5. Training the Team
Step 6. Creating the test automation Framework
Step 7. Developing an Execution Plan
Step 8. Writing Script
Step 9. Reporting
Step 10. Maintenance of Scripts
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Smart city
Arivon Technologies enables to explore the latest trends on smart city and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
SmartCity Definition:
A smart city is a designation given to a city that incorporates information and communication technologies (ICT) to enhance the quality and performance of urban services such as energy, transportation and utilities in order to reduce resource consumption, wastage and overall costs. The overarching aim of a smart city is to enhance the quality of living for its citizens through smart technology.
Smart City Features:
Some typical features of comprehensive development in Smart Cities are described below.
Promoting mixed land use in area based developments–planning for ‘unplanned areas’ containing a range of compatible activities and land uses close to one another in order to make land use more efficient.
Housing and inclusiveness - expand housing opportunities for all;
Creating walkable localities –reduce congestion, air pollution and resource depletion, boost local economy, promote interactions and ensure security.
Preserving and developing open spaces - parks, playgrounds, and recreational spaces in order to enhance the quality of life of citizens, reduce the urban heat effects in Areas and generally promote eco-balance;
Promoting a variety of transport options - Transit Oriented Development (TOD), public transport and last mile para-transport connectivity;
Smart cities . Why?
Smart cities affect everyone, whether directly or indirectly. People who live in smart cities or who are visiting smart cities have the immediate benefit of being connected to the governing body for information and services. The quality of their lives can be improved with better traffic management, waste removal, snow removal, and more. Those who don't live or visit a smart city are affected simply because of the lack of connected services and communication available to them.
Top 10 Smart cities in the world
1. New York City, United States
2. San Francisco, United States
3. London, United Kingdom
4. Paris, France
5. Stockholm, Sweden
6. Tokyo, Japan
7. Amsterdam, Netherlands
8. Boston, United States
9. Vienna, Austria
10. Seoul, South Korea
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Traffic count
Arivon Technologies enables to explore the latest trends on Traffic counting and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
TRAFFIC COUNTING
Traffic counting is the count of vehicles or pedestrians, which is conducted along through road. This count is known as “Traffic Count”.
Types of counting:-
1. Manual Count:- The count is conducted by persons standing at the roadside and recording passing vehicles on a form, is known as “manual traffic count.
2. Automation Count:- The count conducted by machines that can record passing vehicles automatically, which are known as “automatic traffic counts”.
Interval of Traffic count:-
1. Hourly pattern: The way traffic flow characteristic varies throughout the day and night.
2. Daily Pattern: The day-to-day variation throughout the week.
3. Monthly and yearly Pattern: The season-to-season variation throughout the year.
Types of vehicles:-
1. Car:-
Number of Axles: 2.
All Sides Glasses: Front Side, Back Side, Driver Left Side, Driver Right Side, Passenger Left Side (Behind Driver), Passenger Right Side (Behind Driver).
2. LGV:-
Number of Axles - 2 or 3.
Capacity – Less than 3.5T.
Back to Driver - No Glasses and No Windows.
Vehicle with Embedded trolley.
Front Glass (Driver Glass) – Slope.
Back side Glass - Yes or No.
Driver’s Left, Right and Front side Glasses will be there.
3. OGV1:-
Total Number of Axles – 2 or 3.
Front Glass – Slope or Flat.
Capacity – More than 3.5T.
Back Tyre - May be Hollow.
4. OGV2:-
Number of Axles – More than 3 Axles.
No Flat or Slope concept.
5. Bus:-
All Sides Glasses.
Bigger Windows with more than 16+ Passengers.
6. Motor Cycle:-
2 Wheeler with Motor.
7. Cycle:-
2 Wheeler with Pedal.
Uses:-
By counting we can identify the hourly distribution of vehicles at peak hour.
We can improve controlling traffic.
We can track the route taken by vehicle.
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What is artificial intelligence ?
Arivon Technologies enables to explore the latest trends on Artificial Intelligence and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Artificial Intelligence
Artificial intelligence (AI) is an area of computer science that emphasizes the creation of intelligent machines that work and react like humans. Some of the activities computers with artificial intelligence are designed for include
Speech recognition
Learning
Planning
Problem solving
Knowledge engineering is a core part of AI research. Machines can often act and react like humans only if they have abundant information relating to the world. Artificial intelligence must have access to objects, categories, properties and relations between all of them to implement knowledge engineering. Initiating common sense, reasoning and problem-solving power in machines is a difficult and tedious task.
Machine learning is also a core part of AI. Learning without any kind of supervision requires an ability to identify patterns in streams of inputs, whereas learning with adequate supervision involves classification and numerical regressions. Classification determines the category an object belongs to and regression deals with obtaining a set of numerical input or output examples, thereby discovering functions enabling the generation of suitable outputs from respective inputs. Mathematical analysis of machine learning algorithms and their performance is a well-defined branch of theoretical computer science often referred to as computational learning theory.
Machine perception deals with the capability to use sensory inputs to deduce the different aspects of the world, while computer vision is the power to analyze visual inputs with a few sub-problems such as facial, object and gesture recognition.
Robotics is also a major field related to AI. Robots require intelligence to handle tasks such as object manipulation and navigation, along with sub-problems of localization, motion planning and mapping.
AI is incorporated into a variety of different types of technology.
Automation: What makes a system or process function automatically For example robotic process automation (rpa) can be programmed to perform high volume repeatable tasks that human normally performed.
Machine learning: The science of getting a computer to act without programming. Deep Learning is a subset of machine learning that in very simple terms can be thought of as automation of predictive analytics.
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What is queue length surveys ?
Arivon Technologies enables to explore the latest trends on Queue length survey and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Queue Length Surveys
A typical queue length survey involves recording the number of vehicles in a queue just prior to the red signal changing to green for one or more legs of an intersection. When there are multiple lanes, the number of vehicles in the longest queue only, or in each lane separately, can be recorded.
Queue length surveys can require one of the several techniques to be applied and thus produce varying data outcomes. The objective of the survey in terms of the key output requirement will dictate what form of data collection is most appropriate. The most typical approach is the simple observation of recording either how many vehicles are in a queue or the physical extent of the queue just prior to the red signal changing from red to green (or at the minute change for priority sites), with the data being collected per lane and per approach to the feature/junction.
Classification Surveys:
Traffic count and classification surveys involve determining the number of vehicles for a particular vehicle classification type. Classification categories may be as simple as 'car' and 'truck' or extend up to the full 12 Austroads classifications.
Data collection techniques may include:
Data loggers
Video Camera
Manual field observation
Our experienced staff can help you with the survey design, to ensure the best data collection outcomes are achieved relative to your survey needs.
Queue Length Survey Methodology by Manual Observation:
Worst case queue recorded by the number of vehicles within a 15 minute period and by lane where applicable.
Actual queue (spot) at each 15-minute interval and by lane where applicable.
Queue length determined by stationary vehicles at a red light stop up to and including the point where by the light.
changes to amber and by lane where applicable.
Queue length to be recorded in metres until the vehicles are out of sight and by lane where applicable are out of sight.
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What is parking survey ?
Arivon Technologies enables to explore the latest trends on Parking Survey and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Parking Survey.
Parking accumulation surveys. A count of the number of vehicles parked within a defined zone at regular, predetermined time intervals. Typically a field observer walks a circuit through the car park counting and recording the number of cars present per zone on each interval.
Traffic has undertaken a vast number of parking surveys across Australia and has a large pool of experienced survey staff capable of accurately undertaking:
Inventory studies
Duration of stay studies
Occupancy studies
Utilization studies
Our experienced staff can help you with the survey design, to ensure the best outcomes are achieved relative to your survey needs. Data collection and reporting methods can be customized to suit your individual requirements.
Traffic has superior analysis tools to produce accurate data matches and deliver meaningful data reports:
Inventory Lists
Split time periods
Accumulation summaries
Departure v/s arrivals summaries
Detailed data sheets
Parking Accumulation Surveys
A count of the number of vehicles parked within a defined zone at regular, predetermined time intervals. Typically a field observer walks a circuit through the car park counting and recording the number of cars present per zone on each interval.
Electronic data loggers can also be utilized for closed networks, where the volume of all vehicles entering and leaving the network cordon are recorded and the variation of in and out movements are used to calculate a moving accumulation estimate.
Site visitation cycle times in each case is usually set to the signed parking time limit or a subset example a 1 Hour restriction may have a 1 hour cycle or 30 or 15 minute cycles.
Parking zones usually define a specific parking condition or restricted limit, example Disabled Parking, Loading Zone, 2P, Taxis Only specific space. An extreme application of this survey, would be to have every parking space with its own unique identifying number or space code.Survey costs are proportional to the frequency of visitation and recording, so there is a matching of minimum data need versus budget availability to optimize a survey plan.
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What is Compatability testing ?
Arivon Technologies enables to explore the latest trends on Compatibility Testing and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Compatibility Testing
It is a non-functional Testing make certain customer approval and it will create whether your software reason is work in different browsers and database and operating systems and networks.
Types of Compatibility Testing:-
Hardware
Operating systems
Software
Network
Browser
Devices
Mobiles
Versions
Hardware: - It checks software to be friendly with different hardware configurations.
Operating Systems: - It checks your software to be friendly with different working Systems like Windows, Mac OS etc.
Software: - It checks your developed software to be compatible with other software. For example: MS Word application should be friendly with other software like MS Outlook, MS Excel.
Network: - Valuation of performance of system in a network with unstable parameter such as Bandwidth, Operating speed, Capacity. It also checks application in different networks with all parameters declares earlier.
Browser: - It checks compatibility of your website with different browsers like Firefox, Google Chrome, and Internet Explorer etc.
Devices: - It checks compatibility of your software with unlike devices like USB port Devices, Printers and Scanners, Other media devices and Blue tooth.
Mobile: - Checking your software is compatible with mobile stage like Android, iOS etc.
Versions: - It checks your software application to be compatible with different versions of software. For case checking your Microsoft Word to be compatible with Windows 7, Windows 7 SP1, Windows 7 SP 2 and Windows 7 SP 3.
Tools for compatibility testing:-
Secure Platform - Hardware Compatibility tool:-This tool includes required drivers for a exact hardware platform and it provides information on a tool to check for CD burning process with CD burning tools.
Virtual Desktops - Operating System Compatibility:-This is use to run the application in multiple in check systems as effective machines. Number of systems can be related and compare the results.
Compatibility testing process:-
The first phase of compatibility testing is to explain the set of environments or platforms the application is expected to work on.
Tester should have enough knowledge on the platforms / software / hardware to understand the probable application behavior under unlike configurations.
The environment needs to be set of links for testing with different platforms, devices, networks to check whether your application runs well under unlike configurations.
Report the bug’s .Fix the defects. Re-test to confirm defect fixing.
Uses:-
The most important use of compatibility testing is to make confident whether developed software works below different configurations. It is important to check whether the application is compatible with client's environment.
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What is Cloud applications ?
Arivon Technologies enables to explore the latest trends on Cloud Applications and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
CLOUD APPLICATIONS :
Definition:
A cloud application or cloud app is a software program where cloud-based and local components work together. This model relies on remote servers for processing logic that is accessed through a web browser with a continual internet connection
How Cloud Apps Work:
Data is stored and compute cycles occur in a remote data center typically operated by a third-party company. A back end ensures uptime, security and integration and supports multiple access methods.Cloud applications provide quick responsiveness and don't need to permanently reside on the local device. They can function offline, but can be updated online.
Top 10 Uses and Examples of Cloud Computing:
1. Scalable Usage: Cloud computing offers scalable resources through various subscription models
2.Chat bots: The expanded computing power and capacity of the cloud enables us to store information about user preferences.
3.Communication: The cloud allows users to enjoy network-based access to communication tools like emails and calendars.
4.Productivity: Office tools like Microsoft Office 365 and Google Discuses cloud computing, allowing you to use your most-productive tools over the internet.
5.Business Process: Many business management applications like customer relationship management (CRM) and enterprise resource planning (ERP) are also based on a cloud service provider.
6.Backup and recovery1: When you choose cloud for data storage the responsibility of your information also lies with your service provider.
7.Application development: Whether you are developing an application for web or mobileor even games, cloud platforms prove to be a reliable solution .
8.Test and development:The cloud can provide an environment to cut expenses and launch your apps in the market faster
9.Bigdata analytics: Cloud computing enables data scientists to tap into any organizational data to analyze it for patterns and insights, find correlati1ons make predictions, forecast future crisis and help in data backed decision making.
10.Social Networking:Social Media is the most popular and often overlooked application of cloud computing.
Testing of Cloud Apps and Global Traffic:
Testing cloud applications prior to deployment is essential to ensure security and optimal performance.
Cloud Computing:
Cloud computing is an information technology (IT) paradigm that enables ubiquitous access to shared pools of configurable system resources and higher-level services that can be rapidly provisioned with minimal management effort, often over the Internet. Cloud computing relies on sharing of resources to achieve coherence and economies of scale, similar to a public utility.
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What is ANPR ?
Arivon Technologies enables to explore the latest trends on Automatic Number Plate Recognition and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
Automatic Number Plate Recognition (ANPR)
Automatic Number Plate Recognition is a special form of optical character recognition.
License plate recognition (LPR) is a type of technology, mainly software, which enables computer systems to read automatically the registration number of vehicles from digital pictures.
Reading automatically the registration number means transforming the pixels of the digital image Into the ASCII text of the number plate
Why we use ANPR:
Automatic Number Plate Recognition (ANPR) technology is used to help detect, deter and disrupt criminality at a local, force, regional and national level, including tackling travelling criminals, Organised Crime Groups and terrorists. ANPR provides lines of enquiry and evidence in the investigation of crime and is used by law enforcement agencies throughout England, Wales, Scotland and Northern Ireland.
How it works:
As a vehicle passes an ANPR camera, its registration number is read and instantly checked against database records of vehicles of interest. Police officers can intercept and stop a vehicle, check it for evidence and, where necessary, make arrests. A record for all vehicles passing by a camera is stored, including those for vehicles that are not known to be of interest at the time of the read that may in appropriate circumstances be accessed for investigative purposes.
The use of ANPR in this way has proved to be important in the detection of many offences, including locating stolen vehicles, tackling uninsured vehicle use and solving cases of terrorism, major and organised crime. It also allows officers’ attention to be drawn to offending vehicles whilst allowing law abiding drivers to go about their business unhindered.
Why Would You Choose Us?
We offer you the ultimate license plate recognition technology of the highest quality on a competitive price. By choosing us you choose to benefit from our expertise of a decade-long experience collected from thousands of installations in over 60 countries worldwide. By choosing us you choose a reliable, responsible partner who values long term, mutually beneficial partnerships. We are committed to innovation, technology and quality... And our partners are satisfied.
Main benefits:
1. High accuracy and speed.
2. Build your own ANPR system.
3. Country independent OCR technology.
4. Hardware independent technology.
5. Worldwide success u CARMEN system integrator partners.
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What are the Applications of internet of things?
Arivon Technologies enables to explore the latest trends on Internet of Things Applications and utilize the maximum benefits of this Technology. Please visit www.arivontech.com for more details. Contact us [email protected] .
INTERNET OF THINGS
The Internet of Things (IoT) is the network of physical devices, vehicles, home appliances, and other items embedded with electronics, software, sensors, actuators, and connectivity which enables these things to connect and exchange data, creating opportunities for more direct integration of the physical world into computer-based systems, resulting in efficiency improvements, economic benefits, and reduced human exertions.
The interconnection via the Internet of computing devices embedded in everyday objects, enabling them to send and receive data.
Basically Internet of Things (IoT) is a platform where in we can connect everyday things which are embedded with either electronics, software or sensors to the internet and this intern enables us to collect as well as exchange data between these things.
Why do we need IoT?
IoT basically is expanding Interdependence of Humans to Interact, Contribute and Collaborate with things around us. We all are interdependent to each other for something or the other, if we can expand this interdependence to interact, collaborate and contribute with respect to the different things around us then we would be building a proper IoT environment. This would be much more safer, secure, effortless and time saving environment in existence.
Benefits of IoT:
Efficient Resource Utilization
Minimizing Human Effort
Saves time
Development of Artificial Intelligent(AI) through IoT
Improved Security
IoT Features:
Any technology that is available today has not reached its 100% capabilities and it always has that gap to grow. IoT is one of the major technologies in the world today that can help any other technology reach its true and complete potential as well. Now there are mainly 3 aspects to IoT has to how it works.
Connect:
Device Virtualization: Standardize integration of devices with the IoT enterprise.
High speed messaging: Enable reliable, secure and bi-directional communication between the devices and the cloud.
End point management: Manage device end point identity, metadata and life cycle states for devices.
Analyze:
Stream Processing: Real-Time analysis of incoming data streams with event aggregation, filtering and correlation.
Data Enrichment: Enrich raw data streams with contextual information and generate composite streams.
Event Store: Query and visualize massive amount of data with integrated cloud service support and enable big data analysis.
Integrate:
Enterprise connectivity: Dynamically dispatch critical IoT data and events to applications and process flows.
REST APIs: API based integration with cloud apps and IoT devices.
Command and Control: Send messages to devices from enterprise and mobile apps, independent of device connectivity
Internet of Things (IOT) Sectors
The IOT will affect many areas of day to day life. Some of the main sectors are:
Home
Health Medical
Fitness and wellness
Factory and Industry
Agriculture
Cars and roads
Cities.
IOT Components
An IOT system comprises three basic Components.
1.The things -sensors actuators etc
2.The Network
3.The Platforms, Apps and services.
IOT Terms
M2M – Machine to machine
P2P – Person to Person
P2M – Person to Machine
IIOT– Industrial Internet of Things
HIOT– Home Internet of Things
CIOT– Consumer Internet of Things
Big Data – Very large data sets that can be analyzed to reveal insights and trends
RFID– Radio Frequency Identification
NFC– Near field communication
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