MAC and Routing:

• Quick Convergecast in ZigBee/IEEE 802.15.4 Tree-Based Wireless Sensor Networks
• Goal:
• To design protocols to achieve low-latency convergecast in ZigBee tree-based wireless sensor networks


• Challenge:
• How to find a better beacon schedule

• An Efficient Flow Control and Medium Access in Multihop Ad Hoc Networks with Multi-Channels
• We propose a new multichannel MAC protocol using multichannel transmission, and develop a hop-by-hop congestion control scheme, which is named “Efficient Flow Control with Multi-channels” (EFCM). The EFCM scheme modifies the IEEE 802.11 RTS/CTS frame format to reserve bandwidth in different channels. It also solves the hidden terminal problem in the multichannel environment. The intermediate nodes have a higher priority than the source (or leaf) nodes to contend for the right of transmission to solve the intraflow contention. In order to solve the interflow contention, congestion control is taken in every node to construct a flow table, which restricts the number of packets of every flow passing by congested nodes. According to the simulation results, the whole network throughputs of EFCM are improved significantly.


• 主要成就與成果之績效評述
• 學術或技術成就之評述
• The congestion problem especially in multi-hop MANETs is not discussed in the previous works. We also solve the hidden terminal problem in our proposed protocol. Using our protocol can increase network throughput and decrease end-to-end delay. The protocol is published in VTC 2007-Fall

• A Link-layer Protocol for Event-driven WSNs
• Joint two issues
• Exploiting the spatial correlation of sensor data
• Designing a specific MAC protocol

• RGP: Active Route Guiding Protocol for Wireless Sensor Networks with Obstacles
• We propose novel algorithms that enable the existing location-based routing protocols resisting obstacles. The proposed protocols actively establish a forbidden region for concave obstacles and make the obstacle information transparent. Packets will be guided to overcome the obstacle and move along the shortest path from sensor nodes to the sink node.


• 主要成就與成果之績效評述
• 學術或技術成就之評述
• As far as we know, this is the first work that considers multiple obstacles and guides the packet to move along the shortest path with low control overheads. This paper was published by the IEEE MASS 2006.

• Efficient Broadcasting Protocols for Regular Wireless Sensor Networks
• Broadcast is a fundamental operation for all kinds of networks and it has not been addressed seriously in the WSN. We propose two types of power and time efficient broadcasting protocols, namely one-to-all and all-to-all broadcasting protocols, for five different WSN topologies. Our broadcasting protocols conserve power and time by choosing as few relay nodes as possible to scatter packets to the whole network. Besides, collisions are carefully handled such that our broadcasting protocols can achieve 100% reachability.


• 主要成就與成果之績效評述
• 學術或技術成就之評述
• This is a pioneer work for broadcasting protocols on regular WSNs. This work was published in Journal of Wireless Communications & Mobile Computing.