A method and a system with which a primary user, in particular a mobile radio operator, can make a part of the radio spectrum range which is reserved exclusively for the mobile radio operator available in localized and/or time-restricted fashion to a local end user who requested the restricted usage authorization of the radio spectrum range using registered credentials at the mobile radio operator. By way of the credentials the mobile radio operator can allow the local end user limited usage of that radio spectrum range in fee-bearing fashion and can bill same. The local user can then use the assigned frequency band in accordance with his own needs. In particular the user can wirelessly transmit signals in the assigned frequency range between end devices to which no credentials are allocated and in that situation use a transmission protocol which is not defined for the mobile radio network.

An electronic device (such as an access point) is described. During operation, the electronic device may create a hidden transmitted BSS. For example, the hidden transmitted BSS may be hidden, e.g., from an operator of a network that includes the electronic device and/or from one or more second electronic devices. Moreover, the electronic device may transmit a multi-BSS beacon with a transmitted BSSID and a wild-card SSID (or blank character string) of the hidden transmitted BSS, and, for one or more non-transmitted BSSes, one or more non-transmitted BSSIDs and their associated SSIDs. Then, the electronic device may establish one or more connections with the one or more second electronic devices via the one or more non-transmitted BSSes. Furthermore, the electronic device may deactivate a given non-transmitted BSS in the one or more non-transmitted BSSes without impacting a remainder of the non-transmitted BSSes.

A dual band LTE small cell base station communicates on both licensed bands and unlicensed bands. The small cell base station modifies the communication protocol utilized by the licensed band to enable communication over an unlicensed band. This modification involves replacing the physical (PHY) layer of the licensed band communication protocol with the PHY layer of a to-be-used protocol in an unlicensed band.

A dual band LTE small cell base station communicates on both licensed bands and unlicensed bands. The small cell base station modifies the communication protocol utilized by the licensed band to enable communication over an unlicensed band. This modification involves replacing the physical (PHY) layer of the licensed band communication protocol with the PHY layer of a to-be-used protocol in an unlicensed band.

A dual band LTE small cell base station communicates on both licensed bands and unlicensed bands. The small cell base station modifies the communication protocol utilized by the licensed band to enable communication over an unlicensed band. This modification involves replacing the physical (PHY) layer of the licensed band communication protocol with the PHY layer of a to-be-used protocol in an unlicensed band.

A dual band LTE small cell base station communicates on both licensed bands and unlicensed bands. The small cell base station modifies the communication protocol utilized by the licensed band to enable communication over an unlicensed band. This modification involves replacing the physical (PHY) layer of the licensed band communication protocol with the PHY layer of a to-be-used protocol in an unlicensed band.

A multitenant private communication system and a method for providing mobility and access control across tenant boundaries in the multitenant private communication system. The method includes receiving a first connection request from a user device for connection to first network infrastructure of a first tenant and establishing a connection between the user device and a first private sub-network of the first tenant through the first network infrastructure. The method further includes receiving a second connection request from the user device for connection to second network infrastructure of a second tenant of the multitenant private communication system and determining whether the second network infrastructure is a guest network infrastructure of the user device. The method also includes establishing a connection between the user device and the first private sub-network through the second network infrastructure when the second network infrastructure is the guest network infrastructure of the user device.

Disclosed is a virtual wireless base station that can dynamically scale its capacity to meet changes in demand for connectivity. The virtual wireless base station includes a plurality of virtual baseband modules, a plurality of interface/router modules, an orchestrator module and a fabric mapper module. Each of the plurality of virtual baseband modules is coupled to the interface/router modules by a low latency switch fabric. The orchestrator determines current and near future demand for connectivity within the virtual wireless base station and either instantiates and connects new virtual baseband processors to meet a rise in demand, or shuts down underutilized virtual baseband processors in case of insufficient demand.

Disclosed is a virtual wireless base station that can dynamically scale its capacity to meet changes in demand for connectivity. The virtual wireless base station includes a plurality of virtual baseband modules, a plurality of interface/router modules, an orchestrator module and a fabric mapper module. Each of the plurality of virtual baseband modules is coupled to the interface/router modules by a low latency switch fabric. The orchestrator determines current and near future demand for connectivity within the virtual wireless base station and either instantiates and connects new virtual baseband processors to meet a rise in demand, or shuts down underutilized virtual baseband processors in case of insufficient demand.

A mobile communication system 1 for relaying packet communication between a macro cell base station 10 and a mobile unit 30 includes a femto cell base station 20 in which first radio communication is executed with the macro cell base station and second radio communication is executed with the mobile unit, wherein at least one of first frequency used for the first radio communication and second frequency used for the second radio communication is automatically selected so as to make the first frequency and the second frequency different from each other. It is possible to realize a mobile communication system capable of: preventing interference between a backhaul frequency and an access frequency when activating the mobile unit; preventing interference with the access frequency also when changing backhaul after establishing a connection or when receiving an instruction to change the access frequency; and preventing a loop phenomenon to select the access frequency, which is transmitted by the mobile unit itself, as the backhaul.