Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 233,747,811 papers from all fields of science
Search
Sign In
Create Free Account
A-MAC
A-MAC carries the digital information: sound, data-teletext on an FM subcarrier at 7 MHz. Since the vision bandwidth of a standard MAC signal is 8.4…
Expand
Wikipedia
(opens in a new tab)
Create Alert
Alert
Related topics
Related topics
10 relations
B-MAC
C-MAC
D-MAC
D2-MAC
Expand
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2019
2019
A NEW MAC WITH TRAFFIC AWARE RELAY NODE DEPLOYMENT FOR CLUSTER COMMUNICATION IN WIRELESS SENSOR NETWORKS
S. Sujitha
,
Thanuja I.K
2019
Corpus ID: 214699297
: Energy conservation is one of the primary goals for majority of Medium Access control (MAC) protocols designed for wireless…
Expand
2016
2016
Energy-Delay Efficient Unified Routing Protocol for Wireless Sensor Networks
V. Jayachitra
,
G. Geetha
,
K. Vijay
2016
Corpus ID: 29743544
One of the most important challenges in the Wireless Sensor Networks is to improve the performance of the network by extending…
Expand
2014
2014
A-MAC: Adaptive Medium Access Control Protocol for Wireless Body Area Networks
N. Javaid
,
Ashfaq Ahmad
,
Azizur Rahim
,
Z. Khan
,
M. Ishfaq
,
U. Qasim
2014
Corpus ID: 201872617
Recent work in Wireless Body Area Networks (WBANs), specially modern health-care systems enable us to monitor human body with the…
Expand
2014
2014
Mobility-Aware Hybrid Medium Access Control Protocol for Wireless Sensor Network ( WSN )
A. Razaque
,
K. Elleithy
2014
Corpus ID: 6029740
Efficient MAC protocol has been paramount importance for improving the performance of WSN. In this paper, Boarder Node Medium…
Expand
2013
2013
TriggerCast : Enabling Wireless Constructive Collisions
Yin Wang
,
Yuan He
,
Dapeng Cheng
,
Yunhao Liu
,
Xiangyang Li
2013
Corpus ID: 15675643
Constructive Interference (CI) proposed in the existing work (e.g., A-MAC [1], Glossy [2]) may degrade the packet reception…
Expand
2012
2012
A-MAC
P. Dutta
,
Stephen Dawson-Haggerty
,
Yin Chen
,
C. Liang
,
A. Terzis
ACM Trans. Sens. Networks
2012
Corpus ID: 18854890
We present A-MAC, a receiver-initiated link layer for low-power wireless networks that supports several services under a unified…
Expand
2012
2012
30 AMAC : A Versatile and Efficient Receiver-Initiated Link Layer for Low-Power Wireless PRABAL DUTTA
Chieh-Jan Mike Liang
2012
Corpus ID: 268076452
We present A-MAC, a receiver-initiated link layer for low-power wireless networks that supports several services under a unified…
Expand
2010
2010
Analysis Of Cost Function In Medium Access Control Layer For Next Generation Wireless Terminals
C. Suganthi
,
C. Manoharan
2010
Corpus ID: 54740893
The next generation wireless networks impose challenges due to their architectural heterogeneity in terms of different access…
Expand
2006
2006
An Adaptive MAC (A-MAC) Protocol Guaranteeing Network Lifetime for Wireless Sensor Networks
Y. Nam
,
Hojin Lee
,
Hakyung Jung
,
Taekyoung Kwon
,
Yanghee Choi
2006
Corpus ID: 61598073
Wireless sensor networks (WSNs) have a wide range of potential applications, a majority of which may be required to survive for a…
Expand
2005
2005
Conserve energy through multiple-packets transmission in heterogeneous mobile ad hoc networks
W. Liu
,
Yanchao Zhang
,
Yuguang Fang
IEEE Military Communications Conference
2005
Corpus ID: 11807130
Energy condensation is a crucial issue in mobile ad hoc networks (MANETs). In our previous work, we have proposed a device-energy…
Expand
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE