![REFERENCES
PROJECT PHASE -I
1.https://www.te.com/usa-en/products/sensors/position-
sensors.html#:~:text=Position%20sensor%20is%20a%20device,tilt%20and%20fluid%20level%20sensors.
2. https://www.arduino.cc/
3.https://en.wikipedia.org/wiki/GSMmodem#:~:text=A%20GSM%20modem%20or%20GSM,their%20device%20t
o%20the%20network.
[4]https://youtu.be/qCIes_xJdGo
[5] Dr. C. K. Gomathy ,K Rohan ,Bandi Mani Kiran Reddy, Dr. V Geetha "Accident detection and alert system"
Article May 2022 M Pavan Manikanta and Mamatha Samson "IoT based accident detection and rescue system"
2022,Vol,6 No .3,6664-669
[6]Nazia Parveen, Ashif Ali, Aleem Ali." IOT Based Automatic Vehicle Accident Alert System " Oct 30-31,2020
[7] M Pavan Manikanta and Mamatha Samson "IoT based accident detection and rescue system" 2022,Vol,6 No
.3,6664-669
[8]Chokkakula Devi,S.Gowri "An automatic smart phone with loT based accident detection and alerting system"
2021 CEP2IJ88-ART;ISBN;978-1-6654-3524-6](https://image.slidesharecdn.com/phase2review-240402171823-75f17303/85/an-IoT-based-automated-accident-alert-system-12-320.jpg)
an IoT based automated accident alert system
- 1. JYOTHY INSTITUTE OF TECHNOLOGY Tataguni, Bangalore-82 Department of Information Science &Engineering Accredited by National Board of Accreditation(NBA)-New Delhi PROJECT PHASE-II 18CSP83 An IoT based- automated accident alert system: a simulation Presented By: Gopika V Pillai – 1JT19IS009 Under the guidance: Prof. Rakshatha S Priyanka R -1JT19IS034 Sahana C – 1JT19IS041 Sandhya H – 1JT19IS042 PROJECT PHASE -I
- 2. INSTITUTION VISION & MISSION Vision of the Institution : To be an institution of excellence in Engineering education, Innovation and Research and work towards evolving great leaders for the country’s future and meeting global needs. Mission of the Institution : The Institution aims at providing a vibrant, intellectually and emotionally rich teaching learning environment with state of art infrastructure and recognizing and nurturing the potential of each individual to evolve into one’s own self and contribute to the welfare of all.
- 3. Information Science and Engineering VISION AND MISSION Vision of the Department: To be a Department of excellence for education in Information Science and Engineering, innovation, research and work towards empowering students for professional competence and entrepreneurial skills. Mission of the Department: M1: To provide state of the art infrastructure with modern and innovative teaching methodology. M2: To encourage and nurture collaborative and interdisciplinary projects that aid academic and industrial research. M3: To promote activities to inculcate ethical practices and entrepreneurial skills.
- 4. TABLE OF CONTENTS PROJECT PHASE -I Serial Number Title 01 Abstract 02 Objective 03 Flow chart 04 Modules Implemented 05 Deviation from the base paper 06 Team work 07 Achievements 08 References
- 5. ABSTRACT PROJECT PHASE -I Accidents can be dangerous and costly events, with the potential to cause harm to people and damage to property. An IoT - based accident detection system aims to reduce the impact of accidents by detecting and reporting them in real-time, enabling emergency services to respond more quickly and effectively. The system uses a variety of sensors and devices to detect accidents and transmit alerts to a central control center or directly to emergency services. It can also collect data on the causes of accidents, helping to identify trends and implement preventative measures. By improving response times and safety, an IoT-based accident detection system has the potential to save lives and reduce costs associated with accidents. The goal of an IoT-based accident detection system is to minimize the negative impacts of accidents through real-time detection and reporting. By using a range of sensors and devices, the system is able to identify accidents as they occur and alert emergency services to the location and severity of the incident. In addition to improving response times and safety, the system can also gather data on the causes of accidents, allowing for the implementation of preventative measures to reduce the likelihood of future accidents. By utilizing IoT technology, an accident detection system has the potential to save lives, reduce costs, and improve overall safety.
- 6. OBJECTIVE PROJECT PHASE -I • The primary objectives of an IoT-based accident detection system are to improve response time, safety, and transportation safety. By using IoT technology to detect accidents in real-time and alert emergency services immediately, the system can help to reduce the time it takes for help to arrive at the scene, potentially saving lives. • The system can also help to prevent further accidents from occurring by alerting authorities to the situation and allowing them to take appropriate action. Additionally, the system can collect data on the causes of accidents to identify trends and implement preventative measures, reducing the likelihood of future accidents. Finally, by improving response time and safety, the system can help to reduce the costs associated with accidents and improve overall safety on the roads and highways. • An IoT-based accident detection system has a number of objectives, including improving response time, safety, and transportation safety. By providing real-time information about the location and nature of an accident, the system can help emergency services to respond more effectively, potentially saving lives. • The system can also reduce the time it takes for medical care to be provided to victims, improving their chances of survival. In addition, the system can improve communication between emergency services and hospitals, allowing for more efficient coordination of resources. By collecting data on the causes of accidents, the system can help to identify trends and implement preventative measures, such as improving transportation infrastructure and safety measures. • Overall, the goal of an IoT-based accident detection system is to reduce the negative impacts of accidents, including loss of life, injury, property damage, and disruption to transportation networks
- 7. FLOW CHART PROJECT PHASE -I Accident Not detected Police station Guardian Sends Exact location Ambulance Hospital Detected Accident location Text and speech Case file Sends Call and message
- 8. PROJECT PHASE -I MODULES IMPLEMENTED MODULE 1 MODULE 2 MODULE 3 Detecting accident GPS Location tracking MODULE 4 Sending a alert message and call
- 9. PROJECT PHASE -I DEVIATION FROM THE BASE PAPER According to the base paper we have considered, it transmits the location which contains the latitude and longitude where the collision has happened and also it requires the smartphone application to receive message when collision occurs only to a guardian. In case of our model, it transmits the exact location of the accident spot and sends call and message to their guardian, text-to-speech message with a call to the concerned party. Base Paper Our Model • It transmits the location which includes the latitude and longitude of the spot. • It transmits the exact location of the place where collision has occurred. • It requires smartphone application to receive messages. • It does not require any smartphone applications in order to receive messages and call. • The message was only sent to the guardian. • The message will be sent to their respective guardian, hospital, police station. • Only the message was sent. • Both message and call, along with text-to- speech will be implemented.
- 10. PROJECT PHASE -I TEAM WORK 1. Gopika V Pillai 1JT19IS009 As a team leader overall in charge of the project was done and contributed in the project in the paper works and equipment details 2.Priyanka R 1JT19IS034 As a team member, the project demonstration and connection regarding work were handled. 3.Sahana C 1JT19IS041 As a team member, the project demonstration and connection regarding work were handled. 4.Sandhya H 1JT19IS042 As a team member, the coding related to the project and paper works were handled.
- 11. PROJECT PHASE -I Achievements related to project work so far 1.KSCST Project we had present our project work for the KSCST project this year. 2.NLPC project we had placed our application and got selected for the next level. 3.NES connect we had applied for the project. ACHIEVEMENTS
- 12. REFERENCES PROJECT PHASE -I 1.https://www.te.com/usa-en/products/sensors/position- sensors.html#:~:text=Position%20sensor%20is%20a%20device,tilt%20and%20fluid%20level%20sensors. 2. https://www.arduino.cc/ 3.https://en.wikipedia.org/wiki/GSMmodem#:~:text=A%20GSM%20modem%20or%20GSM,their%20device%20t o%20the%20network. [4]https://youtu.be/qCIes_xJdGo [5] Dr. C. K. Gomathy ,K Rohan ,Bandi Mani Kiran Reddy, Dr. V Geetha "Accident detection and alert system" Article May 2022 M Pavan Manikanta and Mamatha Samson "IoT based accident detection and rescue system" 2022,Vol,6 No .3,6664-669 [6]Nazia Parveen, Ashif Ali, Aleem Ali." IOT Based Automatic Vehicle Accident Alert System " Oct 30-31,2020 [7] M Pavan Manikanta and Mamatha Samson "IoT based accident detection and rescue system" 2022,Vol,6 No .3,6664-669 [8]Chokkakula Devi,S.Gowri "An automatic smart phone with loT based accident detection and alerting system" 2021 CEP2IJ88-ART;ISBN;978-1-6654-3524-6
- 13. THANK YOU Presented by: Gopika V Pillai Priyanka R Sahana C Sandhya H PROJECT PHASE -I