Short-range networks based on wireless mesh networking architectures have evolved to enable a power- and cost-efficient means to enable the remote management of non-computer devices. Self-organizing ...

Wireless networks have long embraced a centralized model that holds the potential for bottlenecks, latency and a single point of failure. But wireless mesh networks are emerging as an alternative to ...

The demand for a variety of wireless applications that require a mesh network is exploding. Examples include sensor networking applications such as physical security, CBRN monitoring of urban habitat, ...

A new and resilient Internet infrastructure presents a set of unique testing challenges. Wireless mesh networking, combining performance, simplicity, and economics, can be used when wired backhaul ...

Wireless mesh networking has broad appeal and eliminates many of the problems associated with traditional, centralized wireless solutions. A mesh network enables access points to communicate with ...

Wireless repeaters and mesh networks are both technologies that can be used to extend network coverage over a given area. Wireless repeaters work by taking an existing wireless signal and ...

Wireless Mesh Network (WMN) optimisation encompasses a diverse array of techniques aimed at enhancing network performance, coverage and quality of service. At its core, the field addresses the ...

Access points interconnected with peer-to-peer wireless links create a backhaul infrastructure called a wireless mesh network. These networks extend service across large geographic areas, such as ...

The increasing ubiquity of the Internet of Things has led to a greater integration of Bluetooth mesh networks with wireless sensor technologies. Bluetooth mesh leverages the fundamental Bluetooth Low ...

Does anyone here have experience setting up a somewhat anarchistic wireless mesh? Basically have someone coordinate IP subnetting (maybe use 10.*), and let people administer their own routing nodes as ...