Railway Modular Solution: A Comprehensive Prototype for Enhanced Railway Travel Experience, Lab Reports of Engineering

A railway modular solution aimed at expanding railway reach, boosting profits, and ensuring passenger safety. The prototype covers various use cases, including driver-user communication, station updates, virtual reality gaming, destination feed data, and safety alerts. The setup includes raspberry pi 3.0, pi cameras, openspace 3d framework, cloud server, temperature, weather sensors, object recognition module, and a projection screen. Integration logic involves creating sensor-specific cameras, syncing data to the cloud server, and presenting information to users.

Typology: Lab Reports

2019/2020

Uploaded on 04/08/2020

christian-romeoo
christian-romeoo 🇬🇧

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Railway Modular Solution.
The aim of the prototype is to help railways reach a wider audience, increase
market profits and help its users to travel safely.
The Solution we are trying to present will cover the following use
cases.
1. Drivers can communicate back to users with an update or any other
information.
2. Station updates will be displayed and booking of another trains within
the compartment can be allowed. We will also display train timings and
other details for the users.
3. A virtual reality gaming for a group of 4 people can be added for
passengers entertainment.
4. Feed data (weather, temperature etc.) of the destination will be
displayed to the users.
5. Any issue (such as theft ) within a compartment will be reported to
other users for safety reasons.
6. Information from within compartments will be reported to the driver if
need be.
7. Additional train related issues can be logged by the users.
8. Object recognition to track illegal activities will be displayed too.
Configuration Set up (Prototype).
1. For prototype we will need around 3-4 raspberry pi 3.0 & pi cameras.
2. OpenSpace 3D framework.
3. Cloud Server.
4. Temperature, weather sensors.
5. Object recognition module (running on cloud server)
6. Projection screen- can be projector, tablet screen, holographic
projection (we can discuss this. )
7. Hard coded video feeds to display all the aspects discussed in the use
case from destination point A to destination point B.
Integration logic.
1. We will have to create our sensor specific cameras to catch feed data.
This will be done using raspberry pi,pi cameras and different sensors.
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Railway Modular Solution. The aim of the prototype is to help railways reach a wider audience, increase market profits and help its users to travel safely. The Solution we are trying to present will cover the following use cases.

  1. Drivers can communicate back to users with an update or any other information.
  2. Station updates will be displayed and booking of another trains within the compartment can be allowed. We will also display train timings and other details for the users.
  3. A virtual reality gaming for a group of 4 people can be added for passengers entertainment.
  4. Feed data (weather, temperature etc.) of the destination will be displayed to the users.
  5. Any issue (such as theft ) within a compartment will be reported to other users for safety reasons.
  6. Information from within compartments will be reported to the driver if need be.
  7. Additional train related issues can be logged by the users.
  8. Object recognition to track illegal activities will be displayed too. Configuration Set up (Prototype).
  9. For prototype we will need around 3-4 raspberry pi 3.0 & pi cameras.
  10. OpenSpace 3D framework.
  11. Cloud Server.
  12. Temperature, weather sensors.
  13. Object recognition module (running on cloud server)
  14. Projection screen- can be projector, tablet screen, holographic projection (we can discuss this. )
  15. Hard coded video feeds to display all the aspects discussed in the use case from destination point A to destination point B. Integration logic.
  16. We will have to create our sensor specific cameras to catch feed data. This will be done using raspberry pi,pi cameras and different sensors.
  1. The cameras will be installed in specific places to capture the information and the same shall be synced to the cloud server.
  2. The information will be presented back to the users through a display mode on the train.