Methods, devices and systems that use a control channel to coordinate quality of data communications in software-defined heterogenous multi-hop ad hoc networks are described. In some embodiments, an example apparatus for wireless communication in a network includes performing, using a control plane, network management functions over a control channel that has a first bandwidth, implements a frequency-hopping operation, and operates at in a first frequency band, and performing, using a data plane that is physically and logically decoupled from the control plane, data forwarding functions, based on a routing decision, over at least one data channel that has a second bandwidth and operates in a second frequency band different from the first frequency band.

Methods, devices and systems that use a control channel to coordinate quality of data communications in software-defined heterogenous multi-hop ad hoc networks are described. In some embodiments, an example apparatus for wireless communication in a network includes performing, using a control plane, network management functions over a control channel that has a first bandwidth, implements a frequency-hopping operation, and operates at in a first frequency band, and performing, using a data plane that is physically and logically decoupled from the control plane, data forwarding functions, based on a routing decision, over at least one data channel that has a second bandwidth and operates in a second frequency band different from the first frequency band.

A polymorphic network control system and a polymorphic network control system method supporting terminal mobile access. A network architecture is redesigned based on the idea of separation of an identifier from a locator. In this network mode, the three-layer protocol is no longer a traditional IP message, but a message carrying a locator and an identifier. The polymorphic SDN network controller is responsible for forwarding the data packet to a destination corresponding to a destination locator. When the network location of a mobile device is changed, the transmission connection established based on the identifier will suspend communication due to the disconnection of the physical link. When the mobile device is re-accessed and a new forwarding path is established, the transmission connection can recover communication.

A polymorphic network control system and a polymorphic network control system method supporting terminal mobile access. A network architecture is redesigned based on the idea of separation of an identifier from a locator. In this network mode, the three-layer protocol is no longer a traditional IP message, but a message carrying a locator and an identifier. The polymorphic SDN network controller is responsible for forwarding the data packet to a destination corresponding to a destination locator. When the network location of a mobile device is changed, the transmission connection established based on the identifier will suspend communication due to the disconnection of the physical link. When the mobile device is re-accessed and a new forwarding path is established, the transmission connection can recover communication.

The present invention discloses a service path generation method and apparatus. The method includes: receiving a downlink service path request sent by a classifier, where the downlink service path request carries an identifier of a downlink service chain; obtaining uplink service path information, and obtaining, according to the uplink service path information, identifiers of service devices on the uplink service path; selecting, from the identifiers of service devices on the uplink service path, an identifier of a service device according to the identifier of the downlink service chain; and generating a downlink service path according to the selected identifier of the service device.

The present invention discloses a service path generation method and apparatus. The method includes: receiving a downlink service path request sent by a classifier, where the downlink service path request carries an identifier of a downlink service chain; obtaining uplink service path information, and obtaining, according to the uplink service path information, identifiers of service devices on the uplink service path; selecting, from the identifiers of service devices on the uplink service path, an identifier of a service device according to the identifier of the downlink service chain; and generating a downlink service path according to the selected identifier of the service device.

The application relates to an address generation system for a wireless communication network that comprises at least one sink device and at least one radio node device. Each radio node device is configured to communicate with the at least one sink device or other radio node device belonging to the at least one radio node device. Each radio node device is further configured to generate its internet address comprising a sink identifier of a sink device belonging to the at least one sink device and a wireless communication network address (of said radio node device, so that said radio node device is accessible through said sink device.

The application relates to an address generation system for a wireless communication network that comprises at least one sink device and at least one radio node device. Each radio node device is configured to communicate with the at least one sink device or other radio node device belonging to the at least one radio node device. Each radio node device is further configured to generate its internet address comprising a sink identifier of a sink device belonging to the at least one sink device and a wireless communication network address (of said radio node device, so that said radio node device is accessible through said sink device.

A portable encoded information reading (EIR) terminal for incorporation in a data collection system can comprise a terminal module communicatively coupled to a wireless interface module via a wired interface. The terminal module can include a central processing unit (CPU), a memory, and an encoded information reading (EIR) device. The wireless interface module can include a microcontroller, a memory, and at least one wireless communication interface. The wireless interface module can establish one or more wireless links with one or more peer EIR terminals, to join a wireless network which is collectively formed by the peer EIR terminals. The wireless interface module can receive or transmit beacons containing at least an identifier of a path selection protocol which is used for unicast, multicast and broadcast frame transmission within the wireless network.

In a self-organizing wireless multihop network, each node device selects operation among short-range (SR) and long-range (LR) communication modes, among which the SR mode uses a higher data rate than the LR mode. Each node device advertises connectivity link availability for neighboring node devices, and selectively initiates a link in response to connectivity availability advertised by at least one neighboring node device. The availability advertising is performed in the SR and the LR communication modes, according to a periodicity that is dynamically-variable in response to prevailing circumstances in the local neighborhood. The link initiation is selectively performed in one of either the SR or the LR communication mode based on selection criteria that include data throughput performance associated with different neighboring node devices with which connectivity is available via a certain communication mode.