Abstract: Embodiments herein relate to a method in a network node configured in an optical network for enabling a first unit to connect ad-hoc to a second unit in a system configured for remote radio units and main units. The network node receives a connection request from the first unit over the optical network. The network node establishes a connection, to the first unit, for retrieving control data. The network node stores control data regarding the first unit. The control data is retrieved from the first unit over the established connection and wherein the control data enables the first unit to connect/be connected ad-hoc to the second unit for transferring user data over a physical path through the optical network.

Abstract: A method and a remote digital unit in a central office of a core network, for handling a radio communication for a mobile terminal being connected to an access point at a local site. The remote digital unit determines that the mobile terminal can be served locally by a local digital unit connected to a local signal switching unit at the local site, and instructs the local digital unit to locally process signals to or from the mobile terminal in the communication. The remote digital unit further schedules the signals over a radio interface between the mobile terminal and the access point, and sends updated scheduling information to the local digital unit to indicate the scheduling, thereby enabling the local digital unit to handle the radio communication according to the updated scheduling information.

Abstract: A hub node in a wavelength division multiplexed optical network automatically discovers at least one of new client-side optical ports and new edge-side optical ports. The hub node comprises a wavelength switch network, port discovery equipment, and a controller. The wavelength switch network routes any wavelength channel that does not support a matching pair of client-side and edge-side ports to port discovery equipment at the hub node. The port discovery equipment searches for new ports, and, responsive to finding a new port, automatically discovers a predefined set of one or more attributes of the new port. The controller determines that a client-side port and an edge-side port are a matching pair of ports if discovered sets of attributes of those ports match according to one or more predefined rules. The controller then controls the wavelength switch network to re-route the wavelength channel supporting that matching pair between those ports.

Abstract: Methods and apparatus for a network element or server end station to determine an estimated physical location of a fault in a communications link utilized by two network elements. In an embodiment, the first and second network elements generate link failure indications including time values representing when the respective network element detected the fault. In other embodiments, the link failure indications include time values transmitted over the communications link between the first and second network elements. A time distance between these time values is calculated, which is used to calculate the estimated physical location of the fault. In some embodiments, the link failure indications include sequence numbers transmitted or about to be transmitted over the communications link between the network elements. Sequence distances are calculated between the sequence numbers, and are used to calculate the estimated physical location of the fault.

Abstract: Methods and apparatus for a network element or server end station to determine an estimated physical location of a fault in a communications link utilized by two network elements. In an embodiment, the first and second network elements generate link failure indications including time values representing when the respective network element detected the fault. In other embodiments, the link failure indications include time values transmitted over the communications link between the first and second network elements. A time distance between these time values is calculated, which is used to calculate the estimated physical location of the fault. In some embodiments, the link failure indications include sequence numbers transmitted or about to be transmitted over the communications link between the network elements. Sequence distances are calculated between the sequence numbers, and are used to calculate the estimated physical location of the fault.

Abstract: A small cell backhaul network is described herein which is configured to interact with a 3GPP core and further configured to enable mobile broadband services to be provided to 3GPP mobile terminals. In addition, the small cell backhaul network's components namely a small cell radio base station, a small cell hub, a small cell backhaul controller, and a small cell backhaul storage unit are described herein.

Abstract: A remote radio unit is disclosed that includes antenna interfaces, RF receivers, and a digital-to-optical converter. The antenna interfaces each receive an antenna signal from a different antenna. The RF receivers downconvert the antenna signals to baseband signals, and convert the baseband signals to digital streams of user data. The digital-to-optical converter converts each of the digital streams of user data to optical signals having different optical wavelengths for output to an optical fiber for communication to a radio equipment control unit. Related radio base stations and network control points are disclosed.

Abstract: Many systems deployed by telecommunications operators will, in the future, include both Simple Network Management Protocol (SNMP) and Common Management Information Protocol (CMIP) management mechanisms. The disclosed system solution is a mechanism which enables CMIP to be implemented directly on top of SNMP. By using this mechanism, security and administrative mechanisms that are included in SNMP version 2, or SNMP version 1.5, can be reused for CMIP. This enables telecommunications operators to actively fight the network complexity inflation that is currently placing a heavy burden on telecommunications networks.

Abstract: The invention relates to a device for broadband data service transmission in telecommunication system. The invention aims at implementing bridges in public ATM network, by which public data communication services can be used by private, local networks LAN. The bridges make use of a connectionless data service function by means of broadband data service servers (BDS). The ATM network uses the protocol AAL5. According to the invention the transmission can by that be made without buffering. Preferably respective local network is connected via only one BDS server and the transmission in the BDS network is in streaming mode.

Abstract: The present invention relates to a radio-based mobile short-range communication system SRC, comprising a transmitting and receiving unit. The receiving units are offered information from the transmitting units from a number of information providers. The information providers offer information within one or more predetermined subject fields. The receiving unit selects a desired information and obtains this information presented via a presentation element. The transmitting unit transfers a protocol divided into a number of main divisions. For each information provider, the protocol is divided into a number of subdivisions, one of which indicates different subject fields. The subject fields constitute headings for different subject categories which are presented in a number of octets. Each subject field is represented by one bit which is set to 0 when the information provider does not have any information to deliver within the subject field and, respectively, to 1 for information which is provided.

Abstract: An arrangement for supplying local network emulation services over a broad connectionless ATM-network. The ATM-network is in charge of connectionless data communication traffic by a broadband data service network. Private local networks can be connected to the ATM-network to exchange traffic with other local networks. The ATM-network emulates local networks so that the ATM-network can deal with the local network traffic. The broadband data service network includes servers which function as address resolvers for local network addresses and as local network relays for routing local network traffic via the ATM-network. The server uses unit specific addresses and local emulation groups as addresses.