Abstract
Spacer bars in the smart reversible lanes make periodically broadcast of messages to share their local observed traffic information with each other. This aims to help other spacer bars acquire the global traffic information and make consistent movement when separating the flows. However, radio interference and vehicles in the traffic may degrade the qualities of wireless communication links and cause frequent message losses in the broadcast. Existing solutions tend to use data forwarding to enhance the message dissemination, which may cause imbalanced load in the spacer bars. For instance, the nodes close to the sink have to forward more messages, whereas the ones far away from the sink have fewer messages for forwarding. The unbalanced distribution of network load has a high risk of blocking the wireless communication links and yield inconsistent movement in the reversible lanes. In this paper, we propose a Cooperative Bargain (CoB) scheme where each spacer bar carries some received messages to help other spacer bars recover their lost messages. Since the spacer bars can only acquire the local information, we formulate a cooperative bargain game to negotiate how to allocate the task of message recovery with a balanced network load until a consensus is achieved. CoB is evaluated with the real-world Wi-Fi communication traces in Isti/rural. Simulation results show that CoB can recover an average of 98.6% messages within 100 milliseconds in a 50-node network. CoB does not require the global network information but it can still achieve a comparable performance to other broadcast schemes.
Highlights
Considering the hardware investment and maintenance cost, the number of active spacer bars are limited and they
Note that most of these schemes require the global information for central administration and task offloading, which is challenging in wireless networks due to the unstable qualities of communication links
Cooperative Bargain (CoB) only uses the local information at the active spacer bars but can reduce most disputes in the moving decisions and avoid inconsistent movements in the smart reversible lanes
Summary
Time is synchronized within a consensus-based synchronization method. Each node uses the carrier sense multiple access/collision detection (CSMA/CD) scheme to access the channels for broadcasting, which can achieve a high utilization of channel resources which do not require the central administration to schedule the nodes for broadcasting [28]. Not all the nodes can receive the messages due to the fragile communication links, which may cause inconsistent movements in the reversible lanes when separating the traffic flows To address this issue, each node carries some received messages when it is scheduled for broadcasting and helps other nodes recover their lost messages. Equation (1) indicates that the joint recovery strategy St should be capable of maximizing the average MRR for all the nodes in the broadcast It aims to find an optimal joint recovery strategy St∗ that can maximize the MRR in the broadcast, so that they can acquire the same messages and make consistent movement when separating the traffic flows
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
