A method which directs trajectories to the predetermined continuous target orbits in the system described by nonlinear differential equations with perturbation of available system parameters and the conditions for ach...A method which directs trajectories to the predetermined continuous target orbits in the system described by nonlinear differential equations with perturbation of available system parameters and the conditions for achieving targeting is given.The target orbits may be the unstable solution or even may not be the solution of the system.Numerical experiments are given in the periodically forced Brusselator.展开更多
This paper proposes a tree-based backoff (TBB) protocol that reduces the number of iterations implemented in the procedure of tag collision arbitration in radio frequency identification (RFID) systems. This is ach...This paper proposes a tree-based backoff (TBB) protocol that reduces the number of iterations implemented in the procedure of tag collision arbitration in radio frequency identification (RFID) systems. This is achieved by employing the following mechanisms: one is send the request command iteratively to all tags in the interrogation zone until a single tag is identified. The other is backward to the parent node instead of root node to obtain the request parameters and send the request command again until all tags are identified. Compared with the traditional tree-based protocol, on average, simulated results show that the TBB protocol reduces the number of the iterations by 72.3% and the identification delay by 58.6% and achieves the goal of fast tag identification.展开更多
基金Supported by the National Natural Science Foundation of China.
文摘A method which directs trajectories to the predetermined continuous target orbits in the system described by nonlinear differential equations with perturbation of available system parameters and the conditions for achieving targeting is given.The target orbits may be the unstable solution or even may not be the solution of the system.Numerical experiments are given in the periodically forced Brusselator.
基金supported by the National Natural Science Foundation of China(61261023)the Guangxi Natural Science Foundation(2012GXNSFBA053160,2011GXNSFA018169,2011GXNSFD018024)+1 种基金the Guangxi Education Department Science Foundation(201010LX016)the Guangxi Science Research and Technology Development Program(12118017-9A)
文摘This paper proposes a tree-based backoff (TBB) protocol that reduces the number of iterations implemented in the procedure of tag collision arbitration in radio frequency identification (RFID) systems. This is achieved by employing the following mechanisms: one is send the request command iteratively to all tags in the interrogation zone until a single tag is identified. The other is backward to the parent node instead of root node to obtain the request parameters and send the request command again until all tags are identified. Compared with the traditional tree-based protocol, on average, simulated results show that the TBB protocol reduces the number of the iterations by 72.3% and the identification delay by 58.6% and achieves the goal of fast tag identification.
