{"DOI":"10.5281/zenodo.1098966","abstract":"Wireless mesh networking is rapidly gaining in
\npopularity with a variety of users: from municipalities to enterprises,
\nfrom telecom service providers to public safety and military
\norganizations. This increasing popularity is based on two basic facts:
\nease of deployment and increase in network capacity expressed in
\nbandwidth per footage; WMNs do not rely on any fixed
\ninfrastructure. Many efforts have been used to maximizing
\nthroughput of the network in a multi-channel multi-radio wireless
\nmesh network. Current approaches are purely based on either static or
\ndynamic channel allocation approaches. In this paper, we use a
\nhybrid multichannel multi radio wireless mesh networking
\narchitecture, where static and dynamic interfaces are built in the
\nnodes. Dynamic Adaptive Channel Allocation protocol (DACA), it
\nconsiders optimization for both throughput and delay in the channel
\nallocation. The assignment of the channel has been allocated to be codependent
\nwith the routing problem in the wireless mesh network and
\nthat should be based on passage flow on every link. Temporal and
\nspatial relationship rises to re compute the channel assignment every
\ntime when the pattern changes in mesh network, channel assignment
\nalgorithms assign channels in network. In this paper a computing
\npath which captures the available path bandwidth is the proposed
\ninformation and the proficient routing protocol based on the new path
\nwhich provides both static and dynamic links. The consistency
\nproperty guarantees that each node makes an appropriate packet
\nforwarding decision and balancing the control usage of the network,
\nso that a data packet will traverse through the right path.","author":[{"family":"Robinson"},{"family":"Rajaram"}],"id":"unknown","issued":{"date-parts":[[2015,1,3]]},"language":"en","publisher":"Zenodo","title":"A Novel Approach To Allocate Channels Dynamically In Wireless Mesh Networks","type":"article-journal"}