Rabu, 23 Juli 2008

MM7

MM7 is used to transfer MMS from MMSC (Multimedia Messaging Service Center) to MMS VAS applications and to transfer MMS from MMS VAS applications to MMSC. It is based on SOAP messages with attachments using an HTTP transport layer.

Glosary Telco

WAP 1.2 G/W(Wireless Application Protocol 1.2 G/W) WAP-HTTP 프로토콜 변환 게이트웨이
WAP 2.0 G/W(Wireless Application Protocol 2.0 G/W) xHTML Basic을 지원하는 게이트웨이
PMS(Portal Management System) 유무선 인터넷 포탈관리 시스템
CMS(Contents Management System) 모바일 Contents 관리 시스템
MDS(Multimedia Download Server) 멀티미디어 Contents 다운로드 서버
MOG(Mobile Office Gateway) 모바일 그룹웨어 서비스
MZS(Mobile Zone System) 지역기반 맞춤형 무선인터넷 서비스
SCP(Service Control Point) 지능망 서비스 제어 시스템
IP(Intelligent Peripheral) 특수자원 관리 시스템
SMP(Service Management Point) 지능망 서비스 관리 시스템
SCE(Service Creation Environment) 지능망 서비스 생성 환경
OSA/Parlay G/W(Open Service Access Parlay Gateway) 개방형 망 자원 연동 시스템
SMSC(Short Message Service Center) 문자 메시지 전송 시스템
CBSC(Cell Broadcast Service Center) 동일지역 단말에 대한 데이터 전송 시스템
GMLC(Gateway Mobile Location Center) IMT-2000용 단말 위치정보 제공 시스템
MPC(Mobile Positioning Center) 2G용 단말 위치정보 제공 시스템
PPS(Pre-paid Service) 선불카드 서비스
VPN(Virtual Private Network) 가상 사설 망 서비스
CDMA(Code Division Multiple Access) 코드분할 다중 접속방식, 2세대 북미 이동통신 방식
GSM(Global Standard for Mobile Telecommunication) 2세대 유럽형 이동전화 방식
IMT-2000 = 3G (International Mobile Telecommunications-2000) 차세대 이동통신 시스템
MSC(Mobile Switching Center) 교환기
HLR(Home Location Registry) 가입자 위치 등록기
IWF(Inter Working Function) 망 연동 장치
WIN (Wireless Intelligent Network standard) 북미 무선 지능 망 규격
CAP(CAMEL Application Protocol) 유럽형 무선 지능 망 규격
SGSN(Serving GPRS Support Node) Packet 데이터 교환장치
GGSN(Gateway GPRS Support Node) Packet 데이터 관문장치
MAP(Mobile Application Protocol) Mobile 응용 프로토콜
RBT(Ring Back Tone) 특성화된 통화 연결음 제공 서비스

CMS

Content management system
From Wikipedia, the free encyclopedia

A content management system (CMS) is computer software used to create, edit, manage, and publish content in a consistently organized fashion.[1] CMSs are frequently used for storing, controlling, versioning, and publishing industry-specific documentation such as news articles, operators' manuals, technical manuals, sales guides, and marketing brochures. CMS tools have the ability to efficiently publish all forms of content to their respective online locations without involving technical resources. CMS is becoming increasingly relevant to both large and small businesses as content continues to grow exponentially and search engines struggle to spider that content online. [2] The content managed may include computer files, image media, audio files, electronic documents, and Web content.
A CMS may support the following features:
identification of all key users and their content management roles;
the ability to assign roles and responsibilities to different content categories or types;
definition of workflow tasks for collaborative creation, often coupled with event messaging so that content managers are alerted to changes in content (For example, a content creator submits a story, which is published only after the copy editor revises it and the editor-in-chief approves it.);
the ability to track and manage multiple versions of a single instance of content;
the ability to publish the content to a repository to support access to the content (Increasingly, the repository is an inherent part of the system, and incorporates enterprise search and retrieval.);
separation of content's semantic layer from its layout (For example, the CMS may automatically set the color, fonts, or emphasis of text.).

Short message peer-to-peer protocol (SMPP)

Short message peer-to-peer protocol
From Wikipedia, the free encyclopedia

The short message peer-to-peer protocol (SMPP) is a telecommunications industry protocol for exchanging SMS messages between SMS peer entities such as short message service centres. It is often used to allow third parties (e.g. value-added service providers like news organisations) to submit messages, often in bulk.
SMPP was originally designed by Aldiscon, a small Irish company that was later acquired by Logica (now split off and known as Acision). In 1999, LogicaCMG formally handed over SMPP to the SMPP Developers Forum, later renamed as The SMS Forum and now disbanded. The SMPP protocol specifications are still available through the website which also carries a notice stating that it will be taken down at the end of 2007.
The protocol is based on pairs of request/response PDUs (protocol data units, or packets) exchanged over OSI layer 4 (TCP session or X.25 SVC3) connections. PDUs are binary encoded for efficiency.
The most commonly used versions of SMPP are v3.3, the most widely supported standard, and v3.4, which adds transceiver support (single connections that can send and receive messages). Data exchange may be synchronous, where each peer must wait for a response for each PDU being sent, and asynchronous, where multiple requests can be issued in one go and acknowledged in a skew order by the other peer. The latest version of SMPP is v5.0.

Interactive voice response

Interactive voice response
From Wikipedia, the free encyclopedia

In telephony, interactive voice response, or IVR, is a phone technology that allows a computer to detect voice and touch tones using a normal phone call. The IVR system can respond with pre-recorded or dynamically generated audio to further direct callers on how to proceed. IVR systems can be used to control almost any function where the interface can be broken down into a series of simple menu choices. Once constructed IVR systems generally scale well to handle large call volumes.
Contents[hide]
1 Example usage
2 Typical uses
2.1 Voice Activated Diallers
2.2 Entertainment and information
2.3 Anonymous Access
2.4 Clinical Trials
3 Technologies used
4 Criticism
5 See also
6 References
7 External links


[edit] Example usage
A caller dials a telephone number that is answered by an IVR system. The IVR system executes an application which is tied to the number dialed DNIS (Dialed Number Identification Service). As part of the application, prerecorded audio files or dynamically generated Text to Speech (TTS) audio explain the options available to the caller. The caller is given the choice to select options using DTMF tones or spoken words. Speech recognition is normally used to carry out more complex transactions and simplifies the application menu structure.

[edit] Typical uses
IVR systems are typically used to service high call volumes, reduce cost and improve the customer experience. Examples of typical IVR applications are: telephone banking, televoting, and credit card transactions. Large companies use IVR services to extend the business hours of operation.
Call centers use IVR systems to identify and segment callers. The ability to identify customers allows the ability to tailor services according to the customer profile. It also allows the option of choosing automated services. Information can be fed to the caller allowing choices such as: wait in the queue, choose an automated service, or request a callback. (At a suitable time and telephone number) The use of CTI(Computer Telephone Integration) will allow the IVR system to look up the CLI (Calling Line ID) on a network database and identify the caller. This is currently accurate for about 80% of inbound calls. In the cases where CLI is withheld or unavailable, the caller can be asked to identify themselves by other methods such as a PIN or password. The use of DNIS will ensure that the correct application and language is executed by the IVR system.