Directional Transmissions and Receptions for High-throughput Bulk Forwarding in Wireless Sensor Networks

We present DPI: a wireless sensor network protocol for hulk traffic that uniquely leverages electronically switchable directional (ESD) antennas. Bulk traffic is found in several scenarios and supporting protocols based on standard antenna technology abound. ESL) antennas may improve performance in these scenarios; for example, by reducing channel contention as the antenna can steer the radiated energy only towards the intended receivers, a mid by extending the communication range at no additional energy cost. The corresponding protocol support, however, is largely missing. DPI addresses precisely this issue. First, while the network is quiescent, we collect link metrics across all possible antenna, configurations. We use this information to formulate a constraint satisfaction problem (CSP) that allows us to find two mqlti-hop disjoint paths connecting source and sink, along with the corresponding antenna configurations. Domain-specific heuristics we conceive ameliorate the processing demands in solving the CSP, improving scalability. Second, the routing configuration we obtain is injected back into the network. During the actual bulk transfer, the source funnels data through the two paths by quickly alternating between them. Packet forwarding occurs deterministically at every hop. This allows the source to implicitly "clock" the entire pipeline, sparing the need of proactively synchronizing the transmissions across the two paths. Our results, obtained in a real testbed using 802.15.4-compliant radios and custom ESD antennas we built, indicate that DPT approaches the maximum throughput supported by the link layer, peaking at 214 kbit/s in the settings we test. [GRAPHICS] .