IEEE Internet Of Things (IoT)

IOT Internships in Bangalore

IEEE Internet Of Things (IoT)

IoT Project List / Internet of things Project list


The number of things connected to the Internet and it is rapidly growing at the rate of 30 percent from this year to next, for a total of 4.9 billion, according to a new report from market research firm Gartner, and will hit 25 billion by 2020. Along with the growth in the number of devices, Gartner predicts an increase in total spending on the Internet of Things (IoT) to raise from $69.5 billion next year to $263 billion in 2020.
The Internet of Things, can be a individual with a heart monitor for fitness care, implant, a farm animal with a biochip transponder to access the required data, a car that has built-in IOT sensors to alert the driver when tire pressure is low -- or any other natural or man-made object that can be assigned an IP address and provided with the ability to transfer data over a network. The Internet of Things is also a machine-to-machine (M2M) communication in manufacturing industries and power plants, oil and gas plants, etc. Multiple IOT applications based on Internet of thing are growing exponentially day by day.
The future of IOT starting from smart homes to connect cars to smart health care, consumers and vendors are gearing up for the next big thing, five companies that dominate the consumer IOT market are Google,Microsoft,Samsung,Amazon,Apple.Every learner or student can think of developing many IOT projects in the similar applications area where they gain knowledge in using IOT sensors,IOT platforms for back end application development,IOT hardware like Raspberry pi IOT,Arduino IOT,Particle IOT kit,ESP 8266,IOT Intel-edison,Arduino shields.
It is a wonderful opportunity for budding engineers and entrepreneurs to explore emerging devices and technologies (involving smart sensing, pervasive connectivity, virtual interfaces and ubiquitous computing), and their potential applications in consumer, retail, healthcare and industrial automation, smart city applications, wearable’s .there are multiple IOT project ides for students of CSE,ECE,EEE engineering students can be implemented. We also help Mtech students to complete their research by providing guidance on IEEE IOT Mtech projects .
We also offer project based training on Internet of things, which help you build your careers in the similar domain. Please visit www.Interngurukul for your training needs.


IOT projects.



Please follow the link for List of IOT based projects and it is called as IOT embedded projects.


1.IOT ieee projects.
2.IOT Projects for ece.
3.IOT projects for CSE.
4.IOT projects for beginners.
5.IOT Mtech projects IEEE based.
6.Simple IOT projects.
7.Internet of things applications in Agriculture.
8.Internet of things applications in Automotive.
9.Internet of things applications in Energy Management .

IOT IEEE PROJECTS

  1. A Comparative Study on Internet of Things (IoT) and its Applications in Smart Agriculture
  2. A New Early Warning Method of Train Tracking Interval Based on CTC
  3. A Real-Time Flood Alert System for Parking Lots
  4. Fingerprint and iris biometric controlled smart banking machine embedded with GSM technology for OTP
  5. Challenges and Opportunities of Waste Management in IoT-enabled Smart Cities: A Survey
  6. A Smart Approach onCollecting Working Condition Data from HomeAppliances under the Field Test.
  7. A Navigation and Reservation Based Smart Parking Platform Using Genetic Optimization for Smart Cities
  8. An IoT Platform integrated into an energy efficientDC lighting grid
  9. Design of Bus Tracking and Fuel Monitoring System
  10. Design of a Solar Power Electronic Voting Machine
  11. Design and Implementation of a Fingerprint Based Lock System for Shared Access
  12. Design of an IoT based autonomous vehicle with the aid of computer vision
  13. Application of Wireless Sensor Network in Water Quality Monitoring
  14. An IoT Enabled Real-Time Communication and Location Tracking System for Vehicular Emergency.
  15. An IoT based Fire Alarming and Authentication System for Workhouse using Raspberry Pi 3
  16. Implementation of speech based home automation system using Bluetooth and GSM
  17. Hand Gesture Recognition based on ShapeParameters
  18. Environment monitoring and device control using ARM based Embedded Controlled Sensor Network
  19. Design of Intelligent Home Appliance ControlSystem Based on ARM and ZigBee
  20. Design of Emergency Remote Security Monitoring and Control System Based on ARM
  21. An automatic driver drowsiness Alert system by using GSM
  22. An Advanced Security System Integrated With RFID Based Automated Toll Collection System
  23. Advance Automatic Toll Collection &Vehicle Detection During Collision using RFID
  24. RFID-based Production Data Analysis in an IoT-enabled Smart Job-shop
  25. IoT-Driven Automated Object Detection Algorithm for Urban Surveillance Systems in Smart Cities.
  26. Design of an energy efficient Iot enabled smart system based on DALI network over MQTT protocol
  27. IoT based smart museum using Bluetooth Low Energy.
  28. Knowledge Based Real Time Monitoring System for Aquaculture Using IoT.
  29. Identifying parking spaces & detecting occupancy using vision-based IoT devices
  30. Low-cost Smart Refrigerator
  31. Smart water management using IOT
  32. RFID-Based Attendance Management System
  33. Open source embedded data logger design for PV system monitoring
  34. An IoT Based Remote HRV Monitoring System for Hypertensive Patients
  35. A ZigBee based energy efficient environmental monitoring, alerting and controlling system
  36. Reconfigurable Smart Water Quality Monitoring System in IoT Environment
  37. Performance Enhancement and IoT Based Monitoring for Smart Home
  38. Multiple Motion Control System of Robotic Car Based on IoT to Produce Cloud Service.
  39. Microcontroller based Digital Meter with Alert System using GSM
  40. IoT based vehicle parking manager
  41. Investigation of a new technology of controlling electrical apparatus via a smart phone
  42. Internet of Vehicles (10 V) forTraffic Management
  43. Fuel Management System
  44. Electrical Appliances Control Prototype by Using GSM Module and Arduino
  45. Dynamically Controlling Exterior and Interior Window Coverings through IoT for Environmental Friendly Smart Homes
  46. Developing fish feeder system using Raspberry Pi
  47. Design and Implementation of Remotely Located Energy Meter Monitoring with Load Control andMobile Billing System through GSM
  48. Design and Implementation of Real TimeTransformer Health Monitoring System Using GSMTechnology
  49. EMACS : Design and implementation of indoor environment monitoring and control system
  50. Child Safety Wearable Device
  51. 14. Challenges and Opportunities of Waste Management in IoT-enabled Smart Cities: A Survey
  52. Body and Fall Detection Systemwith Heart Rate Monitoring
  53. Anti-theft Protection of Vehicle by GSM & GPS withFingerprint Verification
  54. RFID-based Production Data Analysis in an IoT-enabled Smart Job-shop
  55. IoT-Driven Automated Object Detection Algorithm for Urban Surveillance Systems in Smart Cities.
  56. Hand Gesture Recognition based on Shape Parameters
  57. Environment monitoring and device control using ARM based Embedded Controlled Sensor Network
  58. Design of Intelligent Home Appliance Control System Based on ARM and ZigBee
  59. Design of Emergency Remote Security Monitoring and Control System Based on ARM
  60. Challenges and Opportunities of Waste Management in IoT-enabled Smart Cities: A Survey.
  61. Design of an IoT based autonomous vehicle with the aid of computer vision
  62. Design of an energy efficient Iot enabled smart system based on DALI network over MQTT protocol
  63. IoT based smart museum using Bluetooth Low Energy.
  64. Knowledge Based Real Time Monitoring System for Aquaculture Using IoT.
  65. An IoT Enabled Real-Time Communication and Location Tracking System for Vehicular Emergency.
  66. Identifying parking spaces & detecting occupancy using vision-based IoT devices.
  67. Low-cost Smart Refrigerator
  68. Implementation of speech based home automation system using Bluetooth and GSM.
  69. Application of Wireless Sensor Network in Water Quality Monitoring
  70. Open source embedded data logger design for PV system monitoring
  71. Fingerprint and iris biometric controlled smart banking machine embedded with GSM technology for OTP
  72. A ZigBee based energy efficient environmental monitoring, alerting and controlling system
  73. Smart water management using IOT
  74. Cost-Efficient Provisioning Strategy for Multiple Services in Distributed Clouds
  75. IoT based Smart HealthCare Kit
  76. “Teach Me–Show Me”—End-User Personalization of a Smart Home and Companion Robot
  77. Datacenter at the Airport: Reasoning about Time-Dependent Parking Lot Occupancy
  78. An Integrated Cloud-Based Smart Home Management System with Community Hierarchy
  79. A Framework for Environmental Monitoring with Arduino-based Sensors using Restful Web Service
  80. Web based Automatic Irrigation System using wireless sensor network and Embedded Linux board
  81. Development of Android based on-line monitoring and control system for Renewable Energy Sources
  82. Multi-hop WBAN Construction for Healthcare IoT Systems
  83. Application of gprs technology in water quality monitoring system
  84. Enabling Reliable and Secure IoT-based Smart City Applications
  85. A Smart System Connecting e-Health Sensors and the Cloud
  86. Water management system using dynamic IP based Embedded Webserver in real time
  87. Water Level Meter for Alerting Population about Floods
  88. Intuitive IoT-based H2U Healthcare System for Elderly People
  89. Effective Ways to Use Internet of Things in the Field of Medical and Smart Health Care
  90. Big Data Challenges in Smart Grid IoT (WAMS) Deployment
  91. Building Smart Cities Applications using IoT and Cloud-based Architectures
  92. Design and management of an intelligent parking lot system by multiple camera platforms
  93. RoboSantral: An autonomous mobile guide robot
  94. An Internet of things approach for motion detection using Raspberry Pi
  95. Monitoring and controlling of smart equipments using Android compatible devices towards IoT applications and services in manufacturing industry
  96. Computer vision based vehicle detection for toll collection system using embedded Linux
  97. EURIDICE — IoT applied to logistics using the Intelligent Cargo concept
  98. Web based automatic irrigation system using wireless sensor network and embedded Linux board
  99. Design and development of sensor-based mini projects for embedded system laboratory using ARM Cortex-M3(LPC1768)
  100. Pibot: The raspberry pi controlled multi-environment robot for surveillance & live streaming
  101. Enabling reliable and secure IoT-based smart city applications
  102. A CAN protocol based embedded system to avoid rear-end collision of vehicles
  103. Design of a home multi-robot system for the elderly and disabled
  104. An intervention study on automated lighting control to save energy in open space offices
  105. Computer vision based vehicle detection for toll collection system using embedded Linux
  106. Design and implementation of automated blood bank using embedded systems
  107. Web based automatic irrigation system using wireless sensor network and embedded Linux board
  108. Smart drip irrigation system using raspberry pi and arduino
  109. A smart system connecting e-health sensors and the cloud
  110. The real time monitoring of water quality in IoT environment
  111. Real time vehicle monitoring and tracking system based on embedded Linux board and android application
  112. Raspberry PI based global industrial process monitoring through wireless communication
  113. A low cost smart irrigation control system
  114. The real time monitoring of water quality in IoT environment
  115. Raspberry Pi for Automation of Water Treatment Plant
  116. Design and operation of Wi-Fi agribot integrated system
  117. Acquisition and management of biomedical data using Internet of Things concepts
  118. Agricultural Drought Data Acquisition and Transmission System Based on Internet of Things
  119. A Novel Wireless Multifunctional Electronic Current Transformer based on ZigBee-based Communication
  120. The Glasgow Raspberry Pi Cloud: A Scale Model for Cloud Computing Infrastructures
  121. Raspberry Pi based Interactive Home Automation System through E-mail
  122. A Cloud Network-based Power Management Technology for Smart Home Systems
  123. Automated Irrigation System Using a Wireless Sensor Network and GPRS Module
  124. Application of Data Acquisition System for Superconducting Quantum Interface Devices (SQUID) at Remote Location
  125. Implementation of a Web of Things based Smart Grid to remotely monitor and control Renewable Energy Sources
  126. Surveillance System with Light Sensor
  127. Application of RFID Technology and the Maximum Spanning Tree Algorithm for Solving Vehicle Emissions in Cities on Internet of Things
  128. A survey of Internet-of-Things: Future Vision Architecture, Challenges and Services
  129. Gateway: BridgingWireless Sensor Networks into Internet of Things
  130. Application of data acquisition system for Superconducting Quantum Interface Devices (SQUID) at remote location
  131. Implementation of a Web of Things based Smart Grid to remotely monitor and control Renewable Energy Sources
  132. Internet of vehicles: From intelligent grid to autonomous cars and vehicular clouds
  133. Design and development of a networked health monitoring and control system
  134. Wind speed measurement and alert system for tunnel fire safety
  135. User Interactive and Assistive Fleet Management and Eco-Driving System
  136. Multi-channel data acquisition and data logging for Green House application
  137. Low cost internet based wireless sensor network for air pollution monitoring using Zigbee module
  138. BIO-monitoring system with conductive textile electrodes integrated into t-shirt
  139. Implementation of a remote data logging system
  140. Acquisition and elaboration of cardiac signal in android Smartphone devices
  141. Plantation Monitoring System Based on Internet of Things
  142. Design of on-line Interactive Data Acquisition and Control System for embedded real time applications
  143. IOT Gateway: BridgingWireless Sensor Networks into Internet of Things
  144. Intelligent Early-Warning System for Landslides Based on the ZigBee Network
  145. Anti-theft application for android based devices
  146. Design and implementation of vehicle tracking system using GPS/GSM/GPRS technology and smartphone application
  147. An intelligent target localization in wireless sensor networks
  148. Design aspects for a reference M2M communication platform for Smart Cities
  149. Smart Lighting Solutions for Smart Cities
  150. Utilizing M2M Technologies for Building Reliable SmartCities
  151. Implementation of a Web of Things based Smart Grid to remotely monitor and control Renewable Energy Sources
  152. A multi-parameter signal monitoring system based onCortex-M3
  153. Design of the wireless monitoring system of solar lamps based on ZigBee and GPRS
  154. Automated Irrigation System Using a Wireless Sensor Network and GPRS Module
  155. Research of real-time agriculture information collection system base on mobile GIS
  156. An adaptable and extensible mobile sensing framework for patient monitoring
  157. Mobile data acquisition towards contextual risk assessment for better disease management in diabetes
  158. Research of Architecture and Application of Internetof Things for Smart Grid
  159. Ubiquitous Data Accessing Method in IoT-Based Information System for Emergency Medical Services
  160. Design of a dielectrophoresis-based portable device for monitoring pollution in water deposits
  161. Vehicle Data Acquisition and Telemetry
  162. Application of RFID technology and the maximum spanning tree algorithm for solving vehicle emissions in cities on Internet of Things
  163. Smart vehicle connectivity for safety applications
  164. An App for Promoting Health and Local Tourism
  165. Controlling electric vehicle charging in the smart grid
  166. A survey of Internet-of-Things: Future vision, architecture, challenges and services
  167. Solid Waste Management Architecture Using Wireless Sensor Network Technology
  168. SVASTHA: An effective solid waste management system for Thiruvalla Municipality in Android OS
  169. Design and implementation of vehicle tracking system using GPS/GSM/GPRS technology and smartphone application

What is iot internt of things?

Most of us think about being connected in terms of computers, tablets and smartphones. IoT internet of things describes a world where just about anything can be connected and communicated in an intelligent fashion. In other words, with the Internet of Things, the physical world is becoming one big information system. The Internet of Things is a difficult concept to define precisely however the first version of the Internet was about data created by people, while the next version is about data created by things. The future of IOT starts from smart homes to connect cars to smart health care, consumers and vendors are gearing up for the next big thing, five companies that dominate the consumer IOT market are Google,Microsoft,Samsung,Amazon,Apple.

Internet of Things Market and M2M Communication by Technologies, Platforms and Services (RFID, Sensor Nodes, Gateways, Cloud Management, NFC, ZigBee, SCADA, Software Platform, System Integrators), by M2M Connections and by IoT Components - Global Forecasts to 2019. Internet of things projects using Raspberry Pi,ARM7,Arm cortex you can build awesome projects using the latest technologies. All these latest internet of things projects(IOT projects) is good for presenting for BE,Mtech,ECE,EEE,CSE academic project requirements.

Top 20 Connected IOT Projects for ECE,CSE 2018 that can transform our experience in the tech world.

IoT Devices are increasingly smarter and more intelligent to fulfill the challenges of the day to day requirement.
Consumer products like home automation, wearable devices for athletics, factory automation, smart city applications, and health care products are the need of the hour. This year products with voice integration are becoming popular, and IOT products announced support for AMAZON and Google assistant and companies are adding AI features into their smart devices, as these devices eventually will learn the various patterns to perform various tasks on their own.
Projects that is applicable for the internet of things final year project .

  1. Intelligent bicycle with IOT .
    This bike will have multiple features like GPS navigation,geolocation,anti-theft features,fully automated smart head lights with light and dark sensors for auto on/off,Android app for settings and controls.
  2. IOT lamp for elderly assistance.
    This lamp shall have motion detectors to help the elders who get up in the middle of the night, auto on off of light, auto notification features are added in case of fall and more frequent visits to the bathroom. This device is very useful for care takers to monitor the elders.
  3. IOT Voice based Smart Ceiling Fan Switch.
    The intelligent switch functions with voice commands on Amazon Alexa,Google assistant,this Wi-fi enabled fan controller allows the user to adjust fan’s speed and light with voice commands.This project is very useful for patients with least movements,eldery persons for easy operation.
  4. IOT Remote bell.
    This is a smart remote bell that allows the user to answer their doors; this is having features like they can answer even if they are not home,it has built in motion sensor that detects the movement,it streams live video to user’s phones.Using the android app, we can communicate 2 way of answering the doors.
  5. IOT based Smart lock.
    Very use the full device, by using a smartphone they can pair via Bluetooth for locking and unlocking their doors.safe access can be achieved with password/finger print. This device can be integrated with home automation solutions.
  6. IOT Smart Mirror.
    The smart mirror is a concept to help the consumers to take advantage of their available time in updating themselves about the traffic,weather,current news,they even can shop,thatmeans that while you are on make up.IOT smart mirror is embedded with ALEXA to receive the voice commands to perform the tasks.
    GO BACK

Internet of things applications in agriculture

Due to population growth and demand for resources are growing rapidly, water shortage is a major threat to agriculture.
Growing Population and limited resources put pressure on farmers to produce more with less. Farmers must contend with increasing water shortages, limited land availability, and unstable costs,this project enables innovative smart farming solutions to help farmers overcome these challenges. These agriculture IoT projects allow farmers to leverage sensors, smart gateways, and monitoring systems to collect and analyze information and make more informed decisions on Crop and livestock marketing.

  1. Develop a data-driven approach to farming

    As the world’s population increases, there is a greater demand for food and a surge in development. With a decrease in the amount of land available for farm use and an ever-growing concern about water resources, farmers need to be smart about their crop and livestock management if they want to reduce waste and cut overall costs. The Internet of Things (IoT) is making it possible for farmers/growers to optimize their crop yields and promote livestock health through remote monitoring and data-driven decision making.

  2. Support livestock health through real-time monitoring.
    With the support of IOT technology, we can design a solution for monitoring the health of the live stock,which is a major concern for farmers as they lose a large amount of profit due to animal illness. Connected sensors in the animals wearable’s collect the data like heartrate,blood pressure,temperature,digestion, etc.,data streamed to the cloud helps the farmers to analyze and take a precautionary measure to control certain diseases.
    IOT solutions are very helpful for the farmers to track the animal location and also monitor the reproductive cycles for safe and successful outcomes.
  3. IOT based smarter water management.
    While there are many factors that impact the health and quality of the harvest, water is perhaps one of the most vibrant. Irrigation management plays an important role in ensuring that crops are getting the right amount of water at the right time. The Internet of Things (IoT) is making it easier for planters to monitor and control water resources to meet demand while also reducing waste and cutting operational costs.
    1. Control water resources to meet the demand.
      • Using IOT technology we can effectively control water wastage and plan the water requirement for the crops and collect the real time water usage data through remote sensing which further helps to make smarter decisions.
      • Trigger actions based on sensor data to switch water on and off, depending on irrigation needs and level of resources.
      • Use insights gathered from data to prevent misuse and underutilization of water resources.
      • Quickly detect leaks and faults in pipelines to address issues immediately and reduce water waste.
    2. Enhance the efficiency of your crop yields.
      • Smart irrigation helps growers improve the efficiency and consistency of their yield by enabling smarter water management:
      • Stay on top of changing conditions across agricultural environments by tracking temperature, rainfall, humidity, and wind with smart sensors.
      • Remotely measure and monitor water moisture levels in the soil to ensure that crops are getting optimal water resources.
      • Automatically trigger sprinkler systems to address low moisture levels in the soil to prevent crop damage or loss.
      • Capture valuable data to indicate trends and make forecasts based on a variety of conditions to meet crop demands.

GO BACK

IoT Applications for Automotive & Transport.

  1. Fleet management services.
    Fleet management, you can get real-time data about vehicle operation to:
    • Optimize routes and increase productivity.
    • Regulate fuel costs.
    • Lower operational expenses.
    • Improve driver safety.
    • Increase fleet security.
    • Remotely diagnose maintenance requirements.
    • Improve the customer experience
        Rental car organizations use vehicle telematics to provide good customer service and emergency services. Insurance companies can use data to analyze to check the driving patterns, monitor safe driving and plan the car insurance premiums based on the good driving behavior. car companies use the telematics data for remote diagnostics, remote monitoring, safety services which help to provide better customer service and build a good relationship with customers.

IoT projects/solutions for smarter energy consumption and management.

  1. Smart metering IOT solutions.
    • Increase energy efficiency and reduce environmental impact.
    • Smart metering is one of the key features in the smart grid that helps to reduce energy consumption and environmental issues.by collecting and uploading the real time data of energy usage which will help the service providers to optimize energy distribution while also facilitates the consumers to smarter decisions about the energy usage.with robost IOT solution, we can improve the better customer service.
    • With smart metering solutions, consumers and the distribution company will have access to rich,real time data which enables both customers and vendors to provide better service by reducing the cost
    • Manage manual operations remotely to improve efficiency and reduce operational costs.
    • Use real-time data to effectively balance electric loads and reduce power outages.
    • Streamline energy distribution through more accurate forecasting.
    • Enable dynamic pricing by raising or lowering costs based on real-time demand.
    • Help consumers make better decisions about the usage of energy and to smarter decisions about the usage by using the IOT technology.timely.
    • Feedback can be provided to all the consumers about the energy consumption using the real time data that improves the transparency on monthly energy bills.
  2. IOT based Smart grid solutions.
    • IOT based Smart grid solutions will help to meet growing demands for electricity across the world:
    • Key benefits include Optimized generation and distribution which helps suppliers to serve larger customers base.
    • Integration of renewable energy sources and flexible distribution systems, suppliers can optimize system operations and increase efficiency.
    • It lowering operational and maintenance costs, smart grid systems enable suppliers to pass cost savings onto the consumer, improve the user energy consumption and customer experience,
    • Delivering electricity more efficiently and cost-effectively to consumers by providing better control over their consumption.
  3. IOT Smart manufacturing industry 4.0.
    The Industrial Internet of Things is transforming manufacturing. With this concept, we can achieve complete functioning visibility to allow for real-time decision making and improved levels of quality and efficiency as well as new service prospects.
    • Enhance asset availability and performance.
      In the factory environment equipment or machine, downtime can be costly; consumers demand higher levels of machine reliability and performance. For manufacturers (OEMs), recurring equipment failure can also signal design flaws and potential safety issues. Industry 4.0 using IOT technology Predictive maintenance is changing the way that manufacturers provide field service by allowing them to use real-time device data and analytics to assess machine health and plan the corrective action.
      A large amount of money can be saved by preventing unplanned downtime by adding sensors to machines/ equipment to monitor the health where some of the down time parameters can be predicted for servicing,Manufacurers can analyze the data and precautionary measures for keeping the uptime or any malfunctions of machines
      Maximize the equipment uptime and schedule the maintenance by predictions using the data of the machine.Thus resource management would become easier by sending the technicians with the right kind of spares for repair.
      Enhance the product quality and reliability to enhance customer satisfaction.
    • IOT Supply chain management.
      Effective supply chain management is one of the critical areas to manage some sensitive goods which needed end-to-end visibility of raw materials and finished goods at all stages of production and delivery. The Internet of Things (IoT) solutions will provide an accurate solution for the producers to optimize production and safeguard delivery to increase efficiency and enhance customer service.
      IT will help to take quick decisions based on the demands of the market and environmental conditions,planning the warehouse spaces
      Monitor the health of raw materials and goods in transit and the securely acesss the inventory which helps to plan demand and supply.
      Cold chains management using IOT helps to maintain perishable shipments to meet the customer requirement and industry regulations.

GO BACK

IOT for Smart building management.

To Improve building efficiency with IoT,It is necessary to adopt latest technologies for to improve the efficiency in managing the infrastructure,which helps to reduce the operating cost,improve the occupancy services,maintenance of the building. IOT solutions are very affordable, and it will make it easier to monitor from remote locations.

  1. IoT Applications for Smart Buildings.
    • Make surveillance simple.
    • IOT smart surveillance and security.

    • IOT based solution will help the building owners to manage and control surveillance devices remotely and make decisions for the best course of action
    • Collect and analyze data to make important improvements to security processes and systems.
    • Prevent loss of critical assets
    • Overall visibility over who enters and leaves a facility in real-time.
    • Consistently and securely monitor facility conditions from any location with Wi-Fi access.
    • Important security alerts will be sent right to their mobile phone.
  2. IOT facility management solutions.

Industrial IoT use cases that will transform the world in the future.


IOT Predictive maintenance for Industrial machines.
Maintenance of industry machines is a big challenge and keeping the machines running will help the industry reach their production targets, and in turn, they increase their profits.with the use of IOT sensors,cameras and data generated by the sensors supervisors can determine the functionality of the machines and take necessary action for predictive maintenance.IOT enabled systems are programmed to raise the alarm and by using the data they can generate maintenance timelines before the problems occur.
Major advantages of IOT based predictive maintenance.

  1. It saves the huge cost in machine maintenance,quick assessment of machine current condition.
  2. By streaming data from sensors and devices to quickly assess current status and recognize warning signs, deliver alerts and automatically trigger appropriate maintenance processes, IoT turns maintenance into a dynamic, rapid and automated task.
  3. This approach promises cost savings over routine or time-based preventive maintenance because tasks are performed only when they are needed. The key is to get the right information at the right time. This will allow managers to know which equipment needs maintenance; maintenance work can be better planned, and systems remain online while workers stay on task. Other potential advantages include increased equipment lifetime, increased plant safety and fewer accidents with negative environmental impact.

GO BACK

IOT mini projects for CSE students.

  1. IOT Voice controlled Home automation using Amazon Alexa
  2. IOT Temperature and Humidity Sensor Data to AWS - IoT
  3. IOT Web Controlled Home Automation
  4. IOT DIY Web Controlled Raspberry Pi Surveillance Robotic Car.
  5. IOT Weather Station: Monitoring Humidity, Temperature and Pressure over the Internet.
  6. IOT based RFID and Raspberry Pi-Based Attendance System.
  7. IOT Smart parking system .
  8. Air quality monitoring project.
  9. Home automation project.
  10. Industrial automation.
  11. IOT -Raspberry pi based cat feeder using IOT.
  12. Raspberry Pi based IOT gateway.
  13. Wireless video surveillance Robot to control via web.
  14. Garage door automation using motors and sensors.
  15. Home security system using facial recognition system using Camera and Rpi.
  16. Smart doorbell using AZURE and windows 10 IOT.

GO BACK