K. Krizman, T. E. Biedka, and T.S. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In #### #### ######### ########## ##########, pages 919-923, 1997. Home/Search Document Not in Database Summary Related Articles Check |
This paper is cited in the following contexts:
A Cone-Based Distributed Topology-Control Algorithm for.. - Li, Halpern, al. (2002) (Correct)
....another node is transmitting. Techniques for estimating direction without requiring position information are available, and discussed in the IEEE antenna and propagation community as the Angle of Arrival problem. The standard way of doing this is by using more than one directional antenna (see [13]) Specifically, the direction of incoming signals is determined from the di#erence in their arrival times at di#erent elements of the antenna. The cone based algorithm takes as a parameter an angle #. A node u then tries to find the minimum power p u,# such that transmitting with p u,# ensures ....
K. Krizman, T. E. Biedka, and T.S. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In IEEE 47th Vehicular Technology Conference, pages 919--923, 1997.
Fault-tolerant and 3-Dimensional Distributed.. - Bahramgiri.. (2002) (2 citations) (Correct)
....can broadcast a message to all nodes within some distance r with power p P. Here we suppose the radio communication unit is able to determine the direction of the sender when it receives a message. As mentioned in the introduction, nodes have no GPS. The reader is referred to Krizman et al. [8] for further information on estimating direction without position information. Our primitives are the same as primitives mentioned by Liet al... It0] More precisely, we have send(u, p, m, v) by which a node u sends message m with power p to v; recv(u, m, v) used by u to receive message m from v; ....
K. Krizman, T.E. Biedka, and T.S. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In IEEE J7th Vehicular Technology Conference, pages 919-923. 1997.
Analysis of a Cone-Based Distributed Topology Control.. - Li, Halpern, Bahl.. (2001) (18 citations) (Correct)
....another node is transmitting. Techniques for estimating direction without requiring position information are available, and discussed in the IEEE antenna and propagation community as the Angle of Arrival problem. The standard way of doing this is by using more than one directional antenna (see [8]) 1 The cone based algorithm takes as a parameter an angle #. A node u then tries to find the minimum power pu,# such that transmitting with pu,# ensures that in every cone of degree # around u, there is some node that u can reach with power pu,# . In [16] it is shown that taking # # 2# 3 is ....
K. Krizman, T. E. Biedka, and T.S. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In IEEE 47th Vehicular Technology Conference, pages 919--923, 1997.
Analysis of a Cone-Based Distributed Topology.. - Li, Halpern.. (2001) (18 citations) (Correct)
No context found.
K. Krizman, T. E. Biedka, and T.S. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In #### #### ######### ########## ##########, pages 919-923, 1997.
Cluster Based Routing Using a k-Tree Core Backbone for.. - Srivastava, Ghosh (2002) (2 citations) (Correct)
No context found.
K. Krizman, T. Bieda, and T. Rappaport. Wireless position location: fundamentals, implementation strategies, and source of error. In Proc. of the 47th Veh. Tech. Conf., pages 919-923, 1997.
Computing 2-Hop Neighborhoods in Ad Hoc Wireless Networks - Calinescu (Correct)
No context found.
K. Krizman, T. Bieda, and T. Rappaport, \Wireless position location: fundamentals, implementation strategies, and source of error", Veh. Tech. Conf, 1997, 919-923.
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