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Internet of things (IOT) Projects and training for Engineering Students in Bangalore, iot ece projects 2018-2019
At TECHNOFIST, we provide academic projects based on the Internet of Things with the latest IEEE papers implementation. Below mentioned are the 2018 list and abstracts in the IoT domain. For synopsis and IEEE papers, please visit our head office and get registered.
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2018-2019 LATEST IOT/ INTERNET THINGS BASED PROJECTS
Here we provided the best and Latest 2018-2019 IoT/Internet of Things projects with abstract/synopsis. We do train students from the basic level of IoT which includes basic IoT Classes, project implementation, final project demo, and final code explanations. If you have questions regarding these projects, feel free to contact us. You may also ask for the abstract of a project idea that you have or want to work on. The own project ideas for diploma and Engineering students can also be encouraged here.
FINAL YEAR PROJECT LIST
IOT PROJECT ABSTRACT
| Project Code | Abstract |
|---|---|
| TIWO01 | DESIGN OF AUTOMATIC ACCIDENT DETECTION AND MANAGEMENT IN VEHICULAR ENVIRONMENT USING IOT – Road accidents and traffic congestion are the major problems in urban areas. Currently, there is no technology for accident detection. Also, due to the delay in reaching the ambulance to the accident location and the traffic congestion in between, the accident location and hospital increases the chances of the death of the victim. There is a need to introduce a system to reduce the loss of life due to accidents and the time taken by the ambulance to reach the hospital. A system for automatic detection of accidents through sensors in the vehicle is proposed. A main server unit houses the database of all hospitals in the city. A GPS and GSM module in the concerned vehicle will send the location of the accident to the main server which will dispatch an ambulance from the nearest hospital to the accident spot. Control of traffic light signals in the path of the ambulance using RF communication will minimize the time taken to reach the hospital. A patient monitoring system in the ambulance will send the vital parameters of the patient to the concerned hospital. This system is fully automated and ensures timely intervention. Contact: +91-9008001602 080-40969981 |
| TIWO02 | CONTINUOUS PATIENT MONITORING WITH A RELIABLE NEAR FIELD COMMUNICATION SYSTEM FOR ERROR-FREE TREATMENT – Near Field Communication (NFC) is a short range, standard-based wireless communication technology that allows two-way interaction between two NFC-enabled devices. This paper explains how the technology can be used to meet the challenges in healthcare management. This technology is user-friendly and commercially viable, enabling easy use with NFC cards, tags, and key chains. Each NFC tag has a unique number for patient identification in a hospital. The NFC tag can serve as an electronic health record, storing the patient’s medical history, prescriptions, and real-time sensor data. Current health monitoring methods are tedious and time-consuming, and using NFC along with wireless sensors helps hospital staff quickly access and monitor patients’ health records and status. NFC provides accuracy and efficiency in healthcare and is economically feasible. Contact: +91-9008001602 080-40969981 |
| TIWO03 | DEVELOPMENT OF SMART HELMET BASED ON IOT TECHNOLOGY FOR SAFETY AND ACCIDENT DETECTION – The Internet of Things (IoT) allows physical world objects to connect to the Internet. This idea utilizes two architectures; the Sensing Entity in the environment that collects data and connects to the cloud, and the Cloud Service that hosts the data from the environment and controls the parameters. The combination of wireless sensor networks and cloud computing helps connect daily devices for data exchange. We propose mechanisms to detect if a rider is wearing a helmet, detect accidents, and check alcohol consumption levels. This information is sent to the concerned individuals regarding their status. Contact: +91-9008001602 080-40969981 |
| TIWO04 | CAR BLACK BOX SYSTEM FOR ACCIDENT PREDICTION AND CRASH RECOVERY USING IOT – This paper proposes a prototype Vehicle Black Box System (VBBS) to be installed in vehicles worldwide. The VBBS prototype is designed with minimal circuits. The display unit shows the results from each sensor network. The project targets accident avoidance and security for vehicle drivers. The VBBS contributes to safer vehicles, aiding crash victim treatment, and helping insurance companies with vehicle crash investigations. Contact: +91-9008001602 080-40969981 |
| TIWO05 | DESIGN OF AUTOMATIC SPEEDBREAKER ON TIME DEMAND USING EMBEDDED SYSTEMS – This project implements a speed breaker that operates based on demand. When not needed, the speed breaker retracts into the road surface, and when required, it rises to slow vehicle speed. The system employs an iron hemi-cylindrical speed breaker controlled by embedded systems. A real-time clock manages the speed breaker’s operation time, making it practical for locations requiring timing for smooth traffic flow. Contact: +91-9008001602 080-40969981 |
| TIWO06 | DESIGN AND IMPLEMENTATION OF AUTHENTICATION FOR SMART VEHICLE SYSTEM USING IOT – With growing technology, vehicle security is crucial. Traditional vehicle security systems are costly and dependent on multiple sensors. This paper proposes a vehicle security system utilizing a biometric scanner for unauthorized access prevention. The system communicates vehicle status to the owner using Wi-Fi or GSM technology. If access is unauthorized, SMS notifications are sent, immobilizing the engine. The prototype uses Arduino Microcontroller to control processes. Additionally, GPS technology aids in vehicle location identification. Contact: +91-9008001602 080-40969981 |
| TIWO07 | AUTOMATIC TOLL COLLECTION AND VEHICLE ACCIDENT DETECTION USING RFID AND PIEZO ELECTRIC SENSOR – The project presents a solution for toll plaza issues by introducing an identification system for vehicles, along with a piezoelectric sensor for accident detection. Vehicle owners create accounts via mobile applications and register their RFID tags. Vehicles passing through the Toll Collection Unit (TCU) are classified, and if overloaded, extra charges apply. Accident detection is monitored through piezoelectric sensors. Contact: +91-9008001602 080-40969981 |
| TIWO08 | AUTOMATIC DETECTION AND NOTIFICATION OF POTHOLES AND HUMPS ON ROADS TO AID DRIVERS – The proposed system aims to collect information about the severity of potholes and humps, helping drivers avoid accidents. This cost-effective solution monitors road conditions, adjusting to the severity of the hazards to enhance driver safety. Contact: +91-9008001602 080-40969981 |
| TIWO09 | AN INTERNET OF THINGS APPROACH FOR MOTION DETECTION USING RASPBERRY PI – This paper discusses a Smart Surveillance System using Raspberry Pi and PIR sensors, enabling facial recognition and improving security. The system captures images upon motion detection, checks for faces, and if necessary, alerts through SMS notifications. Contact |