Technical Glossary -- (Kurt Smith)

Automatic answer is a phone feature that allows a recipient to answer a call without the need to press any keys. Once the phone has started to ring the conversation can be started immediately, because the sound of the recipient's voice speaking into the phone's microphone will trigger the answering of the call

Automatic backlighting means that touching any key will illuminate the display and keypad for ease of viewing. The backlight will turn itself off automatically after a preset period, so avoiding excessive drain on the battery. This feature will only be available on mobile phones that have a backlight

Automatic redial is a feature designed to make it easier to dial numbers that are engaged. After the dialled number is found to be engaged, the phone will either repeatedly redial the number automatically, or it can be set to redial by pressing the appropriate key. This feature saves the user from dialling the number many times until a ringing tone can be obtained. Automatic redial will usually operate for a set number of redials before giving up, to avoid the negative consequences of battery drain, blocking the phone, and causing unnecessary network traffic

audio video interleave

content Band Go back to BackboneSkip content Also known as: Frequency Band Band (Frequency Band) is a term used in telecommunications to refer to a range of frequencies authorised for specific purposes. Each band will be a continuous spectrum of frequencies, with upper and lower limits, and international use of these bands is regulated by the International Telecommunication Union (ITU) to prevent interference. For example, the medium wave band is approved for several purposes, the most well-known being its use for public service AM (Amplitude Modulation) radio broadcasts

Bandwidth is a measure of the information carrying capacity of a communications channel, whether it be of the wired or wireless type. In analogue systems bandwidth is measured as a frequency in Hertz (Hz), and it is calculated as the difference between the highest and lowest frequencies of a band. The term bandwidth can apply to various types of equipment, e.g. audio, radio, video, etc., and in each case the bandwidth is calculated by subtracting the lower frequency limit of the band from its upper frequency limit. The range of frequencies that a particular signal will occupy can also be referred to as its bandwidth (as all signals inherently occupy a certain amount of bandwidth), or alternatively it may mean the range of frequencies that a piece of equipment will respond to. Furthermore, because the rate at which digital data flows through a system will depend on the bandwidth, this data rate can also be shown to be a measure of the system's bandwidth. In digital systems the bandwidth is usually described as the maximum transmission speed that a channel will support, and is measured as a data rate in bits per second (bps). If the bandwidth of a system is too narrow for a particular signal to pass through it, then there will be some distortion to that signal, or loss of its information content. Because bandwidth is closely related to the signal frequencies being transmitted, it gives an indication of the capacity of the system to cope with different signals. This means that a wide bandwidth will allow higher data rates, and conversely a narrow bandwidth will restrict the data rate. A voice signal requires only about a 3 kHz bandwidth, whereas a TV video signal needs about 6 MHz of bandwidth, because it contains much more information. Signals outside the band of interest are usually suppressed, in order to prevent interference to or from other equipment. Bandwidth has a general meaning of how much information can be carried in a given time period (usually a second). For example, a broadband link (i.e. one with a wide bandwidth) may be able to carry enough information to present moving video images. If one link or piece of equipment in a communication network has a much smaller bandwidth than the rest, then this will determine the data rate for the whole system

Also known as: BS Base Station (BS) is a fixed radio station in the cellular network, which communicates with mobile telephones using radio waves. The Base Station will include transmitters, receivers, tower and antenna, and control equipment to interconnect with other base stations and the public switched network via landline or microwave links. A mobile telephone service consists of a network of many Base Stations, each of which covers one cell or geographical area within a total cellular service area. The Base Station communicates with the mobile phones within its given cell, and then transfers calls to other base stations and the fixed telephone network

Also known as: BCC Base Station Colour Code (BCC) is the code transmitted in the SB (Synchronisation Burst) of GSM systems. The BCC is used by the MS (Mobile Station) to distinguish between cells using the same frequencies, when the MS is deciding on which cell to select and to lock-on to. The BCC is also important during the receiving of the BCCH (Broadcast Control Channel), to identify the TSC (Training Sequence Code) to be used

Also known as: BSIC Base Station Identity Code (BSIC) is a 6 bit 'colour code' broadcast on the SCH (Synchronisation Channel) in GSM systems, which uniquely identifies the beacon frequency. The BSIC is broadcasted in order to identify the NCC (Network Colour Code) and the BCC (Base Station Colour Code) to the Mobile Stations in the area. Adjacent cells in the cellular system will have different 'colours' or BSICs

Also known as: BSS Base Station Subsystem / System (BSS) refers to a segment of a GSM system, comprising a Base Station Controller (BSC) and the one or more Base Transceiver Stations (BTS) that are associated with it. The Base Station Controller manages the Base Transceiver Stations, and at a higher level a Mobile Switching Centre (MSC) controls one or more of these Base Station Subsystems. The BSS is the interface between the Mobile Station (MS) and the Mobile Switching Centre (MSC).