K. J. Negus et. al. HomeRF and SWAP: Wireless networking for the connected home. ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28--37, Oct 1998.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....rescue or exploration missions, where cellular infrastructure is unavailable or unreliable. Commercial applications are also likely where there is a need for ubiquitous communication services without the presence or use of a xed infrastructure. Examples include home area wireless networking [10], on the y conferencing applications, networking intelligent devices or sensors, communication between mobile robots, etc. Design of ecient routing protocols is the central challenge in such dynamic wireless networks. Much work has been done in this area starting from the seventies, when the ....

K. J. Negus et. al. HomeRF and SWAP: Wireless networking for the connected home. ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28-37, Oct 1998.

....rescue or exploration missions, where cellular infrastructure is unavailable or unreliable. Commercial applications are also likely where there is a need for ubiquitous communication services without the presence or use of a xed infrastructure. Examples include home area wireless networking [6], on the y conferencing applications, networking intelligent devices or sensors, communication between mobile robots, etc. Design of ecient routing protocols is the central challenge in such dynamic wireless networks. Much work has been done in this area starting from the seventies, when the ....

K. J. Negus et. al. HomeRF and SWAP: Wireless networking for the connected home, in: ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28-37, Oct 1998.

....rescue or exploration missions, where cellular infrastructure is unavailable or unreliable. Commercial applications are also likely where there is a need for ubiquitous communication services without the presence or use of a fixed infrastructure. Examples include home area wireless networking [5], on the fly conferencing applications, networking intelligent devices or sensors, communication between mobile robots, etc. Design of efficient routing protocols is the central challenge in such dynamic wireless networks. Much work has been done in this area starting from the seventies, when the ....

K. J. Negus et. al., "HomeRF and SWAP: Wireless networking for the connected home," ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28--37, Oct 1998.

....their functionality. This vision of embeddable wireless connectivity has been in development for several years at AT T Laboratories Cambridge in the context of the Piconet [3] project and is also being pursued, although with emphasis on different aspects, by several other groups including HomeRF [9, 14], IrDA [11] which uses infrared instead of radio) and Bluetooth [5, 8] Everyone including potential users understands that wireless networking is prone to passive eavesdropping attacks. But it would be highly misleading to take this as the only, or even the main, security concern. In this ....

Kevin J. Negus, John Waters, Jean Tourrilhes, Chris Romans, Jim Lansford, and Stephen Hui. HomeRF and SWAP: Wireless networking for the connected home. ACM Mobile Computing and Communications Review, 2(4):28--37, October 1998.

....to formalize what we mean by maximizing utilization in a multi hop network. 11 1 2 3 4 5 6 7 8 Figure 5: An example scenario Packets from each connection form a single flow at the originating node for that connection. In this scenario, MAC protocols such as IEEE 802.11 [10] and HomeRF SWAP CA [30] would allow simultaneous transfers on the following combinations of connections: a) 1# 2 and 5# 6, b) 3# 4 and 7# 8, and (c) 1# 2 and 7# 8. Other combinations are disallowed since they may result in interference between data and or ACK packets. In our discussion in this section, we assume that ....

....after collision of data packets may be different from that for choosing the interval for the first time for a given packet. We consider a contention based protocol, which is, derived from the Start Time Fair Queuing scheme [9] described earlier and the IEEE 802.11 [10] and HomeRF SWAP CA [30]) MAC protocol. Our protocol differs from 802.11 and SWAP CA in the way in which the backoff interval is calculated, and updated (before and after collision of data packets) Further work is required to optimize this protocol. Also, in this paper, we only present one implementation, although as ....

K. J. Negus, J. Waters, J. Tourrilhes, C. Romans, J. Lansford, and S. Hui, "HomeRF and SWAP: Wireless Networking for the Connected Home," Mobile Computing and Communications Review, vol. 2, no. 4, pp. 28-37 (October 1998)

....found in [11, 12, 13] Wireless and embedded computing technologies are expected to become a basic building block in future networks and inter networks. An increasing number of small size devices will be equipped with wireless communication devices and ad hoc protocols [7, 15, 16] on Bluetooth, [14] on HomeRF, 17] on sensor networks. Ad hoc multi hop wireless networks are self organizing, self configuring, instantly deployable in response to application needs and independent of a fixed infrastructure existence. As such, they are very attractive to multimedia applications in disaster ....

K.J. Negus, J. Waters, J. Tourrilhes, C. Romans, J. Lansford, and S. Hui "HomeRF and SWAP: Wireless Networking for the Connected Home" ACM SIGMOBILE Mobile Computing and Communications Review, vol. 2, no. 4, Oct. 1998, pp. 28-37.

....presented and compared with theoretical calculations. 1. Introduction With the emergence of home entertainment, automation, and information devices that are capable of being interconnected in home networks [1] there is increasing interest in the use of wireless transmissions in home networking [2]. Consumer wireless networking devices typically work in the licence free instrumentation, scientific and medical (ISM) bands and employ spread spectrum (SS) signaling [3] in compliance with U.S. FCC Part 15 rules. Commercially available radio transceivers employing conventional direct sequence ....

K.J. Negus, J. Waters, J. Tourrilhes, C. Romans, J. Lansford and S. Hui, "HomeRF and SWAP: Wireless networking for the connected home", ACM Mobile Computing and Communications Review, vol. 2, no. 4, pp. 28-37, Oct. 1998.

....the presence or This work is partially supported by AFOSR grant no. F49260 961 0472, Texas Advanced Technology Program grant no. 010115 248b, NSF MII grant no. CDA 9633299 and NSF CAREER award no. ACI9733836. use of a fixed infrastructure. Examples include home area wireless networking [9], on the fly conferencing applications, networking intelligent devices or sensors, communication between mobile robots, etc. Design of efficient routing protocols is the central challenge in such dynamic wireless networks. Much work has been done in this area starting from the seventies, when the ....

K. J. Negus et. al. HomeRF and SWAP: Wireless networking for the connected home. ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28--37, Oct 1998.

....computers, laptops, desktops, and wall size displays. Furthermore, computing is appearing in more and more devices around the home and office. An important next wave will appear when the devices can all easily communicate with each other, probably using radio wireless technologies like HomeRF [39] or BlueTooth [13] What are the implications of these technologies on the tools that will be needed The next sections discuss some ideas. Past, Present and Future of User Interface Software Tools To appear in ACM TOCHI 16 draft of 09 16 99 3.2.1. Varying Input and Output Capabilities ....

Negus, K.J., et al., "HomeRF and SWAP: Wireless Networking for the Connected Home." ACM Mobile Computing and Communications Review, 1998. 2(4) pp. 28-37. Oct. www.homerf.org.

....is supposed to leave the device connected to the PC whenever the user is next to the PC. Many PDAs also have built in wireless communication in the form of infrared (IR) which many laptops and some desktop computers support as well. Future wireless technologies such as BlueTooth [10] and HomeRF [18] will make connecting multiple devices even easier. The PDA can be used to extend the desktop in various ways. It can serve as a customizable input device, with soft buttons, sliders, menus and other controls displayed on the screen. These can be made big enough to operate with a finger, even ....

Negus, K.J., et al., "HomeRF and SWAP: Wireless Networking for the Connected Home." ACM Mobile Computing and Communications Review, 1998. 2(4) pp. 28-37. Oct. www.homerf.org.

.... Wireless Networks This vision of embeddable wireless connectivity has been in development for several years at AT T Laboratories Cambridge in the context of the Piconet [4] project and is also being pursued, although with emphasis on di#erent aspects, by several other groups including HomeRF [6,12], IrDA [3] which uses infrared instead of radio) and Bluetooth [13,7] Everyone including potential users knows that wireless networking is more prone to passive eavesdropping attacks. But it would be highly misleading to take this as the only, or even the main, security concern. In this ....

Kevin J. Negus, John Waters, Jean Tourrilhes, Chris Romans, Jim Lansford, and Stephen Hui. HomeRF and SWAP: Wireless networking for the connected home. ACM Mobile Computing and Communications Review, 2(4):28--37, October 1998.

....is supposed to leave the device connected to the PC whenever the user is next to the PC. Many PDAs also have built in wireless communication in the form of infrared (IR) which many laptops and some desktop computers support as well. Future wireless technologies such as BlueTooth [9] and HomeRF [17] will make connecting multiple devices even easier. The PDA can be used to extend the desktop in various ways. It can serve as a customizable input device, with soft buttons, sliders, menus and other controls displayed on the screen. These can be made big enough to operate with a finger, even ....

Negus, K.J., et al., "HomeRF and SWAP: Wireless Networking for the Connected Home." ACM Mobile Computing and Communications Review, 1998. 2(4) pp. 28-37. Oct. www.homerf.org.

....is now clear that a new trend favoring direct interaction among mobile nodes is rapidly emerging. The leading factors are: the increased ubiquity of mobile devices capable or seaming less inter communication; the standardization efforts towards close range radio communication among mobile devices [7, 5]; and the development of data sharing protocols for point to point collaboration [2] The new class of mobile systems that comes with this trend calls for a new approach to causality modeling. An approach that copes with the increased dynamism and unpredictability of interaction peers and the ....

Kevin Negus, John Waters, Jean Tourilhes, Chris Romans, Jim Lansford, and Stephan Hui. HomeRF and SWAP: Wireless networking for the connected home. ACM Mobile Computing and Communications Review, 2(4):28--37, October 1998.

No context found.

K. J. Negus et. al. HomeRF and SWAP: Wireless networking for the connected home. ACM SIGMOBILE Mobile Computing and Communications Review, 2(4):28--37, Oct 1998.

No context found.

Kevin J. Negus, John Waters, Jean Tourrilhes, Chris Romans, Jim Lansford, and Stephen Hui. HomeRF and SWAP: Wireless Networking for the Connected Home. ACM Mobile Computing and Communications Review, Vol. 2, No. 4, (October 1998): 28-37.

No context found.

K.J. Negus et al., HomeRF and SWAP: Wireless networking for the connected home, ACM SIGMOBILE Mobile Computing and Communications Review 2(4) (October 1998) 28--37.

No context found.

Kevin J. Negus, John Waters, Jean Tourrilhes, Chris Romans, Jim Lansford, and Stephen Hui. HomeRF and SWAP: Wireless Networking for the Connected Home. ACM Mobile Computing and Communications Review, Vol. 2, No. 4, (October 1998), p. 28-37.

No context found.

K.J. Negus, J. Waters, J. Tourrilhes, C. Romans, J. Lansford, and S. Hui "HomeRF and SWAP: Wireless Networking for the Connected Home" ACM SIGMOBILE Mobile Computing and Communications Review, vol. 2, no. 4, Oct. 1998, pp. 28-37.

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC