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LAPD protocol

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All messages sent on the A-bis interface use the LAPD protocol that enables reliable transmission of information. LAPD provides two kinds of transfer modes: Unacknowledged info transfer with no guarantee that the information frame is successfully delivered to the addressee, and acknowledged information transfer, where each signal is acknowledged, and the system makes sure that the frame has reached the destination successfully. Only measurement reports use unacknowledged information transfer. Frame Structure and Data Links A flag, 01111110 (h'7E), delimits a frame. The one flag is enough between consecutive frames. The receiving entity looks for the flag 01111110 to synchronize on the start of a frame. TEI and SAPI are used to access the right entity and right function at the receiving end. SAPI is the address used to access different functions, such as TRXC, CF and Layer 2 management procedures, within one physical entity. The CF (Central Function...

GSM PHASES

In the late 1980s, the groups involved in developing the GSM standard realized that within the given time-frame they could not complete the specifications for the entire range of GSM services and features as originally planned. Because of this, it was decided that GSM would be released in phases with phase 1 consisting of a limited set of services and features. Each new phase builds on the services offered by existing phases. Phase 1 Phase 1 contains the most common services including: ·          Voice telephony ·          International roaming ·          Basic fax/data services (up to 9.6 kbits/s) ·          Call forwarding ·          Call barring ·          Short Message Service (SMS) Phase 1 also incorporated features such...

Types of Alarm

TGC FAULT No active TGC application exists in the Transceiver Group. PERMANENT FAULT A managed object is classified as being permanently faulty when fault situations have occurred, and have been cleared, a certain number of times within a certain period of time. Manual intervention is required to bring such equipment back into operation. LOCAL MODE The BTS equipment is in Local Mode or the BTS equipment has changed from Local to Remote Mode and a fault exists in the communication link between the BSC and the BTS. Communication between the BSC and the BTS is not possible. LMT INTERVENTION Local maintenance activities are being performed in the BTS. LOOP TEST FAILED Test of the traffic carrying capabilities of the TS has failed. BTS INTERNAL There is a fault internal to the BTS. MAINS FAILURE There is a fault in the power supply to the BTS or one or more items of equipment within the BTS. Battery backup (where available) is in use. Escalation may occur if...

How to calculate Peak Data Rate in LTE

The Peak Data rate of LTE is about 400Mbps?     It’s in a simple way to calculate date rate in LTE. First: Assume That 20 MHz channel bandwidth, normal CP, 64QAM  and  4x4 MIMO technology are used. Second: Calculate the number of resource elements (RE) in a subframe with 20 MHz channel bandwidth: 12 subcarriers x 7 OFDMA symbols x 100 resource blocks x 2 slots= 16800 REs per subframe. Each RE can carry a modulation symbol. Third:  Assume 64 QAM modulation and no coding, one modulation symbol will carry 6 bits. The total bits in a subframe (1ms) over 20 MHz channel is 16800 modulation symbols x 6 bits / modulation symbol = 100800 bits. So the data rate is 100800 bits / 1 ms = 100.8 Mbps. Fourth:  with 4x4 MIMO, the Peak Data rate goes up to 100.8 Mbps x 4 = 403 Mbps.

EPG on Juniper

           Based on the Juniper M320 or M120 router, the EPG supports Physical Interface Cards (PICs) of the following types: ·          EPG services PIC : All EPG application software entities run on the EPG services PIC. These entities consist of Globe Session Controller (GSC), SGW Session Controller (SSC) and PGW Session Controller (PSC) for Control Plane, and Packet Processor (PP) and L2TP Packet Processor (TPP) for User Plane. The EPG services PIC is PB-GGSN3 Services PIC. ·          Network interface PIC: The network interface PIC provides 1GE or 10GE Ethernet connectivity for the EPG. ·          Standard services PIC : the standard services PIC runs platform-generic services, such as encapsulation and decapsulation of user payload into Generic Routing Encapsulation (GRE) or IPsec tunnels. For EPG on Juniper, the followin...

EPG- Evolved Packet Gateway

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The EPG combines the GGSN, SGW and PGW functions in one physical node. In addition, the evolved platform adaptation layer supports the EPG application running on both operating systems: Junos OS (the OS of Juniper M series routers) and IPOS (the OS of Smart Services Router),  The EPG is available on different hardware platforms: ·          Juniper (M320, M120) ·          Smart Services Router (SSR 8020) The EPG based on Juniper hardware is simply called EPG on Juniper and the EPG based on SSR hardware is respectively called EPG on SSR. In the EIN documents, these terms are used to distinguish between these hardware platforms. If the hardware platform does not matter, the EPG term covers all possible EPG configurations. The EPG on SSR has an increased capacity, up to 10 times greater than the EPG on Juniper. Therefore, the EPG on SSR has a big impact on the PS core network, and thi...

RAN OSS - Technical Certification

Ericsson - RAN OSS Radio Access Networks - Technical Certification overview RAN OSS Knowledge objective, the candidate should be able to identify and describe: The role of OSS in Ericsson Business Support System, the products, functionalities and features: OSS-RC, ENIQ Event, ENIQ Statistics, SON, ENM, etc. Main advantages/values as well as impact on RAN performance and OPEX reduction. Importance of OSS Ericsson Network Manager Total Network Performance The Importance of OSS in Self Organizing Networks Key SON Features for the Mobile Domain SON Overview SON detailed functionality SON based GSM Spectrum Management OSS Architecture Overview OSS in Modern Networks   OSS-RC Overview (WBL) OSS-RC Applications Overview - OSS-RC Features and Roadmap (Video) OSS-RC Functionality for LTE (Centra)