Abstract: A method for establishing and maintaining a dynamic network designed to allow wireless devices to communicate with one another on an ad-hoc basis. The wireless network is designed specifically to function autonomously, remaining completely independent from relying on any internet service provider or any other subsidiary systems such as any access points or routers. Rather than using central routers, all nodes in the network share the same capabilities as one another, and allow for a dynamic routing protocol to be executed directly by the network nodes.

Abstract: Systems and methods for propagating a mesh network are disclosed. In embodiments, an API for participation in a mesh network stored on a first device may be distributed without a central provider. The presence of the first device may be detected on a second mobile device. The second mobile device may wirelessly connect to the first device. A web browser application may be accessed on the second mobile device and used to access a DNS implementation on the first device. The second mobile device may submit a request for an API from the first device. The API from the first device may be downloaded and installed at the second mobile device. The second mobile device, using the installed API, may connect to and communicate with the first device.

Abstract: A method for establishing and maintaining a dynamic network designed to allow wireless devices to communicate with one another on an ad-hoc basis. The wireless network is designed specifically to function autonomously, remaining completely independent from relying on any internet service provider or any other subsidiary systems such as any access points or routers. Rather than using central routers, all nodes in the network share the same capabilities as one another, and allow for a dynamic routing protocol to be executed directly by the network nodes.

Abstract: A method for establishing and maintaining a dynamic network designed to allow wireless devices to communicate with one another on an ad-hoc basis. The wireless network is designed specifically to function autonomously, remaining completely independent from relying on any internet service provider or any other subsidiary systems such as any access points or routers. Rather than using central routers, all nodes in the network share the same capabilities as one another, and allow for a dynamic routing protocol to be executed directly by the network nodes.

Abstract: Systems and methods for propagating a mesh network are disclosed. In embodiments, an API for participation in a mesh network stored on a first device may be distributed without a central provider. The presence of the first device may be detected on a second mobile device. The second mobile device may wirelessly connect to the first device. A web browser application may be accessed on the second mobile device and used to access a DNS implementation on the first device. The second mobile device may submit a request for an API from the first device. The API from the first device may be downloaded and installed at the second mobile device. The second mobile device, using the installed API, may connect to and communicate with the first device.

Abstract: A method for establishing and maintaining a dynamic network designed to allow wireless devices to communicate with one another on an ad-hoc basis. The wireless network is designed specifically to function autonomously, remaining completely independent from relying on any internet service provider or any other subsidiary systems such as any access points or routers. Rather than using central routers, all nodes in the network share the same capabilities as one another, and allow for a dynamic routing protocol to be executed directly by the network nodes.