IoT (Internet of Things) project in which we capture sensors data from ECUs pass it on CAN bus and send it to server on cloud via gateway as Beagle bone black for which end user can take the benefits of monitoring real time data through web application.
4. The automotive industry
transformation is happening now.
Today's cars are need to be
connected to offer emergency
roadside assistance, get real-time car
monitoring alerts etc., but this just
the start, it has more applications in
coming future.
The automobile industry is on to
move to self-driving automobile
industry, and the driving force behind
this is the Internet of Things (IoT).
I N S P I R A T I O N F O R T H E P R O J E C T
IoT
Vehicles
+
5. Our Project is entitled under managing vehicle functionality
For this we need to capture data from sensors
The vehicle functionality will be controlled remotely by user.
O U R O B J E C T I V E
6. H A R D W A R E U S E D
STM 32 F4
Discovery Board
CAN
Transceiver
Beagle
Bone
Black
8. The project is about using CAN Bus along with
transceivers to detect sensor data.
The data collected is sent to gateway beagle bone
black which collects the data and is sent to server.
Server runs on cloud Amazon AWS.
The implementation can be seen on an ionic app by
end user which accesses through server on cloud.
Working
12. REpresentational State Transfer is a set of
constraints that ensure a scalable, fault-
tolerant and easily extensible system.
Communication Protocols
M Q T T
H T T P
MQTT is an ISO standard publish-
subscribe-based messaging protocol. It is
designed for connection with remote
locations where bandwidth is limited.
13. MEAN is a free and open-source JavaScript software stack for
building dynamic web sites and web applications. The MEAN
stack is MongoDB, Express.js, AngularJS, and Node.js
M E A N S T A C K
Software for Server
15. The data collected from the sensors can be sent over
cloud where analysis will be employed.
The analysis would help the company in improving
the product.
The data can help the insurance companies.
User can remotely control the car.
Applications
16. C O N N E C T I N G N O T O N L Y C A R S
Applications
C A N A L S O F O R P R O S T H E T I C L I M B S
The CANBUS applications is not limited to cars in
vehicles but we can extend its applications to ships,
air crafts.
Since it takes only a pair of twisted cables to
communicate among multiple nodes, it has its
applications in artificial limbs
18. This project when implemented in real time
environment would gather more sensor data
Data analytics can be deployed on each machine.
The project can be enhanced for over the air
hardware updates.
Remotely controlling cars can help in preventing
accidents as the cars can also be monitored over
cloud and hence traced.
The data collected can be used to analyse the
behaviour of the driver.
Future scope of this project
19. T H A N K Y O U !
Advance Your Driving Experience with
IoT
20. Disclaimer
Created as part of PG-DIOT as
Project at ACTS CDAC
C R E D I T S
Rajat Garg
Ayush Kumar
Saumya Agarwal
Harshvardhan Dhanraj
G U I D E D B Y
Mr. Sanyam Arya