Basic research features its indelible contribution to and energetic promotion of scientific cause and advancing social progress. This article explores its vital position and rewarding role in creating socio-economic b...Basic research features its indelible contribution to and energetic promotion of scientific cause and advancing social progress. This article explores its vital position and rewarding role in creating socio-economic benefits by reviewing the development and marketing success of a new drug, "Di’ aoxinxuekang".展开更多
Deployment of nodes based on K-barrier coverage in an underground wireless sensor network is described. The network has automatic routing recovery by using a basic information table (BIT) for each node. An RSSI positi...Deployment of nodes based on K-barrier coverage in an underground wireless sensor network is described. The network has automatic routing recovery by using a basic information table (BIT) for each node. An RSSI positioning algorithm based on a path loss model in the coal mine is used to calculate the path loss in real time within the actual lane way environment. Simulation results show that the packet loss can be controlled to less than 15% by the routing recovery algorithm under special recovery circum- stances. The location precision is within 5 m, which greatly enhances performance compared to tradi- tional frequency location systems. This approach can meet the needs for accurate location underground.展开更多
文摘Basic research features its indelible contribution to and energetic promotion of scientific cause and advancing social progress. This article explores its vital position and rewarding role in creating socio-economic benefits by reviewing the development and marketing success of a new drug, "Di’ aoxinxuekang".
基金supported by the National Key Technology R&D Program of China (No. 2008BAH37B05095)
文摘Deployment of nodes based on K-barrier coverage in an underground wireless sensor network is described. The network has automatic routing recovery by using a basic information table (BIT) for each node. An RSSI positioning algorithm based on a path loss model in the coal mine is used to calculate the path loss in real time within the actual lane way environment. Simulation results show that the packet loss can be controlled to less than 15% by the routing recovery algorithm under special recovery circum- stances. The location precision is within 5 m, which greatly enhances performance compared to tradi- tional frequency location systems. This approach can meet the needs for accurate location underground.
