Report setup group2 2016
Introduction
In the introduction will be stated: the purpose of our assignment and the structure of the report.
Focus, Objectives and Approach
Focus
Our main focus area concerns: Automated traffic regulation (ATR).
Narrow that down is our specific focus: Updating the Current Intersection System to be Compatible with Autonomous Vehicles (Vehicle Intersection Control).
Restrictions on the focus area:
- Crossing has 4 directions.
- Traffic is randomly generated by a Gaussian distribution, the ratio between autonomous and normal cars will be changeable.
A multitude of traffic accidents happen at intersectionscitation needed. These are also the bottlenecks in terms of efficiency since human drivers have varying reaction times. Drivers can also get stressed behind the wheel and lose valuable time while commuting. Contemporary intersections could make traffic more efficient by utilizing data from sensors of autonomous cars and controlling autonomous cars passing the intersection. By making the intersections smarter, user comfort can be greatly increased. Also society will benefit from more efficient driving past intersections, since emissions can be greatly reduced, which benefits the environment. Enterprises will also be positively influenced, since people will be able to get to work quicker instead of being stuck at an intersection.
Objectives
Main objective:
- Optimizing traffic flow at intersections by making them compatible with autonomous vehicles.
Objectives:
- Using sensor data from autonomous cars to make traffic light algorithms more aware of current traffic
- Choose a suitable communication protocol between autonomous cars and the intersection.
- Find existing efficient algorithms for autonomous cars at intersection in a literary review.
- Combine said algorithm with current traffic light algorithms to optimize traffic flow of both normal and autonomous cars.
- Make sure the traffic flow is optimal, which results in less waiting time and less emission.
- Create a transition solution that can combine the use of autonomous cars with human drivers by using the current intersection system.
- Keep in mind the perception of safety and the actual safety of passengers inside the autonomous cars (level of comfort).
- Decrease the number of traffic accidents involving cars on crossings.
Approach
The approach that is chosen is research and simulation oriented. Most information on existing solutions must come from literature and ongoing research. By identifying the state of the art, we will try to combine traffic light algorithms with algorithms that only work with 100% autonomous cars at the intersection. When such combination has been made, a simulation will be created and tested, after which an evaluation will follow.
Initial USE-aspects
Regarding the Focus, Objectives and Approach, USE-aspects need to be evaluated to see what important goals can be defined with regard to the algorithm and simulation. In this subsection, the most important aspects will be discussed.
Literature study
In this chapter the state of the art will be identified and summarized. Very specifically mention the research gap that was identified
Algorithms and plans for intersections with autonomous vehicles
Intersection algorithms
Sensors in automated vehicles
Current communication systems
Algorithm and Simulation
Algorithm
Here the choices of the algorithm will be stated. Like the requirements, preferences and constraints and how this was built toward the final algorithm and design of the intersection.
Simulation
Here the implementation of the algorithm is stated and the choices and methods for the simulation are explained. Like the choice to generate the traffic by a Poisson distribution and what the things are that we designed but did not include in the simulation.
Communication protocol
In order to make the algorithm work, a communication protocol has to be implemented in the intersection system. Following the literature research on current communication systems that exist between intersections and busses and ambulances, the KAR system was identified. This is a system that is already present in current intersections. It is based on a short distance radio. [1]
When implementing it into the situation with autonomous cars, every autonomous car will be able to send information on their position, provided by their navigation system, to the intersection. The intersection is then able to know where every autonomous car is on the intersection. In reverse, the intersection is able to send information to the autonomous cars as well. In that way, the cars can anticipate on the time they will have to wait at the intersection and adjust their speed accordingly so a minimum amount of breaking and quick speed reduction is required, which increases the comfort for the autonomous car users. [1]
It is also possible to implement a reservation system into the KAR system as it is already used for buses. The bus can now send their route information to the intersection so that the intersection knows how high the priority for that bus is. The same system could be used for autonomous cars. However, the question is how fair this is toward human drivers who will not be able to send their level of priority to the intersection. Therefore, it might not be user-friendly to implement this part of the KAR system into the intersections. [1]
USE aspects
Results
Evaluation
Validation
References
Planning and task division
This is included as an appendix to the report.