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1 COMPANY PROFILE Introduction Bharat Sanchar Nigam Limited (abbreviated BSNL) is an Indian state owned telecommunications company headquartered in New Delhi, India. It was incorporated on 15 September 2000 and took over the business of providing of telecom services and network management from the erstwhile Central Government Departments of Telecom Services (DTS) and Telecom Operations (DTO), with effect from 1 October 2000 on a going concern basis. It is the largest provider of fixed telephony, largest broadband services provider with more than 60% Market share, and fifth largest mobile telephony provider in India. However, in recent years the company's revenues and market share have plummeted into heavy losses due to intense competition in the Indian telecommunications sector. BSNL is India's oldest and largest communication service provider (CSP). It had a customer base of 12 crores as of June 2015. It has footprints throughout India except for the metropolitan cities of Mumbai and New Delhi, which are managed by Mahanagar Telephone Nigam (MTNL). Every day we make phone calls from our telephone sets quite easily but are unaware of the technology used behind it. The technologies used in telecommunication is a bit complicated but at the same time interesting too. Here it has been tried to give an idea of the different technologies used for telecommunication by one of the biggest service provides to India, i.e., BHARAT SANCHAR NIGAM LTD.(BSNL) The service provided by BSNL to its customers is:- ī‚ˇ Basic local telephony ī‚ˇ National and International call service ī‚ˇ Mobile Communication ī‚ˇ Internet Service The basic telephony i.e., the local call facility provided to the consumers by BSNL comprises of the following:- ī‚ˇ Exchange ī‚ˇ Main Distribution Frame ī‚ˇ Line Connection ī‚ˇ Power Plant
2 History BSNL, then known as the Department of Telecommunications, had been a near monopoly during the socialist period of the Indian economy. During this period, BSNL was the only telecom service provider in the country. MTNL was present only in Mumbai and New Delhi. During this period BSNL operated as a typical state-run organization, inefficient, slow, bureaucratic, and heavily unionised. As a result, subscribers had to wait for as long as five years to get a telephone connection. The corporation tasted competition for the first time after the liberalisation of Indian economy in 1991. Faced with stiff competition from the private telecom service providers, BSNL has subsequently tried to increase efficiencies itsel BSNL was born in 2000 after the corporatization of DoT. The corporatization of BSNL was undertaken by an external international consulting team consisting of a consortium of A.F.Ferguson & Co, JB Dadachanji and NM Rothschild - and was probably the most complex corporatisation exercise of its kind ever attempted anywhere because of the quantum of assets (said to be worth USD 50 Billion in terms of breakup value) and over half a million directly and indirectly employed staff. BSNL has been providing connections in both urban and rural areas. Pre-activated Mobile connections are available at many places across India. BSNL has also unveiled cost-effective broadband internet access plans (DataOne) targeted at homes and small businesses. At present BSNL enjoy's around 60% of market share of ISP services. 2007 was declared as "Year of Broadband" in India and BSNL announced plans for providing 5 million broadband connectivity by the end of 2007. The introduction of MNP(Mobile Number Portability) which is an service that lets the consumer change wireless service providers while retaining their actual mobile number, BSNL has seen many customers opting for this service to move away from the services to other operators. Despite this as the Indian Wireless market grows BSNL still has a loyal base of subscribers and many more subscribers being added to it every day. This provides customer services for 95 million as of June 2011. BSNL announced the discontinuation of its telegram services from 15 July 2013, after 160 years in service. It was opened to the public in February 1855; in 2010 it was upgraded to a web-based messaging system in 2010, through 182 telegraph offices across India
3 Vision ī‚ˇ Be the leading telecom service provider in India with global presence. ī‚ˇ Create a customer focused organization with excellence in customer care, sales and marketing. ī‚ˇ Leverage technology to provide affordable and innovative telecom. Services/products across customer segments. Mission Be the leading telecom service provider in India with global presence. ī‚ˇ Generating value for all stakeholders - employees, shareholders, vendors & business associates ī‚ˇ Maximizing return on existing assets with sustained focus on profitability ī‚ˇ Becoming the most trusted, preferred and admired telecom brand ī‚ˇ To explore International markets for Global presence Creating a customer focused organization with excellence in customer care, sales & marketing . ī‚ˇ Developing a marketing and sales culture that is responsive to customer needs care, sales& marketing ī‚ˇ Excellence in customer service-”friendly, reliable, time bound, convenient and courteous service” Leveraging technology to provide affordable and innovative products/ services across customer segments ī‚ˇ Offering differentiated products/services tailored to different service segments ī‚ˇ Providing reliable telecom services that are value for money Providing a conducive work environment with strong focus on performance ī‚ˇ Attracting talent and keeping them motivated ī‚ˇ Enhancing employees skills and utilizing them effectively ī‚ˇ Encouraging and rewarding individual and team/group performance Establishing efficient business processes enabled by IT ī‚ˇ Changing policies and processes to enable transparent, quick and efficient decision making ī‚ˇ Building effective IT systems and tools
4 Objective ī‚ˇ To be the Leading Telecom Services provider by achieving higher rate of growth so as to become a profitable enterprise. ī‚ˇ To provide quality and reliable fixed telecom service to our customer and thereby increase customers confidence. ī‚ˇ To provide customer friendly mobile telephone service of high quality and play a leading role as GSM operator in its area of operation. Contribute towards: ī‚ˇ Broadband customers base of 20 Mn in India by the end of 2011-12 as per broadband policy 2004. ī‚ˇ Providing telephone connections in villages as per Government policy.
5 ABOUT THR TELEPHONE EXCHANGE In the field of, a telephone exchange or telephone switch is a system of electronic components that connects telephone calls. A central office is the physical building used to house equipment including telephone switches, which make "work" in the sense of making connections and relaying the speech information. Fig. 1: The Digital Exchange Types of Exchange: ī‚ˇ Manual exchange ī‚ˇ Strowger exchange (automatic exchange) ī‚ˇ Electronics analog and digital exchange 1.MANUAL EXCHANGE: With manual service, the customer lifts the receiver off-hook and asks the operator to connect the call to a requested number. Provided that the number is in the same central office, the operator connects the call by plugging into the jack on the switchboard corresponding to the called customers line. If the call is to another central office, the operator plugs into the trunk for the other office and asks the operator answering (known as the "inward" operator) to connect the call.
6 2.AUTOMATIC EXCHANGE: Strowger developed a system of automatic switching using an electromechanical switch based around electromagnets and pawls. With the help of his nephew (Walter S. Strowger) he produced a working model in 1888 .selector starts in the home position and with each impulse the wiper contacts would progress round the output bank to the next position. Each output would be connected to a different subscriber, thus the caller could connect to any other subscriber who was connected to that bank, without any manual assistance from an operator. Diagram of a simple Selector 3.DIGITAL EXCHANGE: It is based on the automatic control by stored programmed in computer linked to it. It cover al l the main drawbacks of above mentioned exchange. It may be digital or analog but mostly digital electronics exchanges are now common. It base on the principal time division switching or space division switching. Space division switching is used for analog electronics exchange and time division switching is used for digital exchange. Space Division switching System In a space Division Switching system, a continuous physical path is set up between input and output terminations. This path is separate for each connection and is held for the entire duration of the call. Path for different connections is independent of each other. Once a continuous path has been established., Signals are interchanged between the two terminations. Such a switching network can employ either metallic or electronic cross points. Previously, usage of metallic cross-points using reed relays and all were favored. They have the advantage of compatibility with the existing line and trunk signaling conditions in the network. Time Division Switching System In Time Division Switching, a number of calls share the same path on time division sharing basis. The path is not separate for each connection, rather, is shared sequentially for a fraction of a time by different calls. This process is repeated periodically at a suitable high rate.
7 LOCAL AND TRUNK EXCHANGE Trunk Lines The term Trunk Line in telecommunications refers to the high-speed connection between telephone central offices in the. Trunk lines are always digital. The wiring between central offices was originally just pairs of twisted copper wire (the twists in the wiring prevented things known as crosstalk and noise). Because it is expensive to string up (or lay trenches for buried cables), the phone company researched ways in which to carry more data over the existing copper lines. This was achieved by using. Later, when fiber-optic technology became available, phone companies upgraded their trunk lines to fiber optics and used statistical time-division multiplexing, , coarse or dense wave division multiplexing and optical switching to further improve transmission speeds. The signaling information exchanged between different exchanges via inter exchange trunks for the routing of calls is termed as Inter exchange Signaling. Earlier in band /out of band frequencies were used for transmitting signaling information. Later on, with the emergence of PCM systems, it was possible to segregate the signaling from the speech channel. A trunk line isa connecting (or other switching equipment), as distinguished from local loop circuit which extends from telephone exchange switching equipment to individual or information origination/termination equipment. When dealing with a private branch exchange (PBX), trunk lines are the phone lines coming into the PBX from the telephone provider. This differentiates . these incoming lines from extension telephone lines that connect the PBX to (usually) individual phone sets. Trunking saves cost, because there are usually fewer trunk lines than extension lines, since it is unusual in most offices to have all extension lines in use for external calls at once. Trunk lines transmit voice and data in formats such as analog, digital signal 1, ISDN or primary rate interface. The dial tone lines for outgoing calls are called DDCO (Direct Dial Central Office) trunks. Trunk lines can contain thousands of simultaneous calls that have been combined using. These thousands of calls are carried from one central office to another where they can be connected to a de-multiplexing device and switched through digital access cross connecting switches to reach the proper exchange and local phone number.
8 PCM PCM Principle: A long distance or local telephone conversation between two persons could be provided by using a pair of open wire lines or underground cable as early as mid of 19 th century. However, due to fast industrial development and an increased telephone awareness, demand for trunk and local traffic went on increasing at a rapid rate. To cater to the increased demand of traffic between two stations or between two subscribers at the same station we resorted to the use of an increased number of pairs on either wire alignment, or in underground cable. This could solve the problem for sometime only as there is a limit to the number of open wire pairs that can be installed on one alignment due to headway consideration and maintenance problems. Similarly increasing the number of open wire pairs that can be installed on one alignment due to headway consideration and maintenance problems. Similarly increasing the number of pairs to the underground cable is uneconomical and leads to maintenance problems. It, therefore became imperative to think of new technical innovations which could exploit the available bandwidth of transmission media such as open wire lines or underground cables to provide more number of circuits on one pair. The technique used to provide a number of circuits using a single transmission link is called Multiplexing. MULTIPLEXING TECHNIQUES There are basically two types of multiplexing techniques 1. Frequency Division Multiplexing (FDM) 2. Time Division Multiplexing (TDM) 1.Frequency Division Multiplexing Techniques (FDM): The FDM techniques is the process of translating individual speech circuits (300-3400 Hz) into pre-assigned frequency slots within the bandwidth of the transmission medium. The frequency translation is done by amplitude modulation of the audio frequency with an appropriate carrier frequency. At the output of the modulator a filter network is connected to select either a lower or an upper side band. Since the intelligence is carried in either side band, single side band suppressed carrier mode of AM is used. This results in substantial saving of bandwidth mid also permits the use of low power amplifiers. Please refer Fig. 1. FDM techniques usually find their application in analogue transmission systems. An analogue transmission system is one which is used for transmitting continuously varying signals.
9 Fig.2 FDM Principle 2.Time Division Multiplexing: Basically, time division multiplexing involves nothing more than sharing a transmission medium by a number of circuits in time domain by establishing a sequence of time slots during which individual channels (circuits) can be transmitted. Thus the entire bandwidth is periodically available to each channel. Normally all time slots1 are equal in length. Each channel is assigned a time slot with a specific common repetition period called a frame interval. This is illustrated in Fig. 2. Fig.3 Time Division Multiplexing Each channel is sampled at a specified rate and transmitted for a fixed duration. All channels are sampled one by, the cycle is repeated again and again. The channels are connected to individual gates which are opened
10 one by one in a fixed sequence. At the receiving end also similar gates are opened in unison with the gates at the transmitting end. The signal received at the receiving end will be in the form of discrete samples and these are combined to reproduce the original signal. Thus, at a given instant of time, onty one channel is transmitted through the medium, and by sequential sampling a number of channels can be staggered in time as opposed to transmitting all the channel at the same time as in EDM systems. This staggering of channels in time sequence for transmission over a common medium is called Time Division Multiplexing (TDM). Pulse Code Modulation(PCM): It was only in 1938, Mr. A.M. Reaves (USA) developed a Pulse Code Modulation (PCM) system to transmit the spoken word in digital form. Since then digital speech transmission has become an alternative to the analogue systems. PCM systems use TDM technique to provide a number of circuits on the same transmission medium viz open wire or underground cable pair or a channel provided by carrier, coaxial, microwave or satellite system.
11 FIBRE OPTICS COMMUNICATION Fiber Optics: The use and demand for optical fiber has grown tremendously and optical-fiber applications are numerous. Telecommunication applications are widespread, ranging from global networks to desktop computers. These involve the transmission of voice, data, or video over distances of less than a meter to hundreds of kilometers, using one of a few standard fiber designs in one of several cable designs. Carriers use optical fiber to carry plain old telephone service (POTS) across their nation wide networks. Local exchange carriers (LECs) use fiber to carry this same service between central office switches at local levels, and sometimes as far as the neighborhood or individual home(fiber to the home [FTTH]). Optical fiber is also used extensively for transmission of data. Multinational firms need secure ,reliable systems to transfer data and financial information between buildings to the desktop terminals or computers and to transfer data around the world. Cable television companies also use fiber for delivery of digital video and data services. The high bandwidth provided by fiber makes it the perfect choice for transmitting broadband signals, such as high-definition television(HDTV) telecasts. Intelligent transportation systems, such as smart highways with intelligent traffic lights, automated tollbooths, and changeable message signs, also use fiber-optic-based telemetry systems. ADVANTAGES OF FIBRE OPTICS : Fiber Optics has the following advantages : ī‚§ SPEED: Fiber optic networks operate at high speeds - up into the gigabits ī‚§ BANDWIDTH: large carrying capacity ī‚§ DISTANCE: Signals can be transmitted further without needing to be "refreshed" or strengthened. ī‚§ RESISTANCE: Greater resistance to electromagnetic noise such as radios, motors or other nearby cables. ī‚§ MAINTENANCE: Fiber optic cables costs much less to maintain. Fiber Optic System : Optical Fiber is new medium, in which information (voice, Data or Video) is transmitted through glass or plastic fibre, in the form of light, following the transmission sequence give below : (1) Information is Encoded into Electrical Signals.
12 (2) Electrical Signals are Converted into light Signals. (3) Light Travels Down the Fiber. (4) A Detector Changes the Light Signals into Electrical Signals. (5) Electrical Signals are Decoded into Information.- - Inexpensive light sources available. - Repeater spacing increases along with operating speeds because low loss fibers are used at high data rates. Fig:4 Communication through fiber optics Principle of Operation - Theory : Total Internal Reflection - The Reflection that Occurs when a Light Ray Travelling in One Material Hits a Different Material and Reflects Back into the Original Material without any Loss of Light. Propagation of light through Optical Fiber: The optical fiber has two concentric layers called the core and the cladding. The inner core is the light carrying part. The surrounding cladding provides the difference refractive index that allows total internal reflection of light through the core. The index of the cladding is less than 1%, lower than that of the core. Typical values for example are a core refractive index of 1.47 and a cladding index of 1.46. Fiber manufacturers control this difference to obtain desired optical fiber characteristics. Most fibers have an additional coating around the cladding. This buffer coating is a shock absorber and has no optical properties affecting the propagation of light within the fiber. Figure shows the idea of light travelling through a fiber. Light injected into the fiber and striking core to cladding interface at greater than the critical angle, reflects
13 back into core, since the angle of incidence and reflection are equal, the reflected light will again be reflected. The light will continue zigzagging down the length of the fiber. Light striking the interface at less than the critical angle passes into the cladding, where it is lost over distance. The cladding is usually inefficient as a light carrier, and light in the cladding becomes attenuated fairly .Propagation of light through fiber is governed by the indices of the core and cladding by Snells law. Fig:5 Light travelling through optical fiber The specific characteristics of light propagation through a fiber depends on many factors, including- ī‚§ The size of the fiber.- ī‚§ The composition of the fiber. ī‚§ The light injected into the fiber. Jacket Cladding Core Cladding (n2) Cladding Core (n2) Jacket Light at less than Angle of Angle of critical angle is incidence reflection absorbed in jacket Light is propagated by total internal reflection Fig. Total Internal Reflection in an optical Fibre 50 m and a cladding diameter of 125 m. FIBER TYPES The refractive Index profile describes the relation between the indices of the core and cladding. Two main relationship exists : ī‚§ Step Index
14 ī‚§ Graded Index The step index fiber has a core with uniform index throughout. The profile shows a sharp step at the junction of the core and cladding. In contrast, the graded index has a non-uniform core. The Index is highest at the center and gradually decreases until it matches with that of the cladding. There is no sharp break in indices between the core and the cladding. By this classification there are three types of fibers : ī‚§ Multimode Step Index fiber (Step Index fiber) ī‚§ Multimode graded Index fiber (Graded Index fiber) ī‚§ Single- Mode Step Index fiber (Single Mode Fiber) Multimode Step Index fiber : a large core, up to 100 microns in diameter. As result, some of the light rays that make up the digital pulse may travel a direct route, whereas others zigzag as they bounce off the cladding. These alternative pathways cause the different groupings of light rays, referred to as modes, to arrive separately at a receiving point. The pulse, an aggregate of different modes, begins to spread out, losing its well-defined shape. The need to leave spacing between pulses to prevent overlapping limits bandwidth that is, the amount of information that can be sent. Consequently, this type of fiber is best suited for transmission overshot distances, in an endoscope, for instance. Multimode graded Index fiber : contains a core in which the refractive index diminishes gradually from the center axis out toward the cladding. The higher refractive index at the center makes the light rays moving down the axis advance more slowly than those near the cladding. Also, rather than zigzagging off the cladding, light in the core curves helically because of the graded index, reducing its travel distance. The shortened path and the higher speed allow light at the periphery to arrive at a receiver at about the same time as the slow but straight rays in the core axis. The result: a digital pulse suffers less dispersion. Single- Mode Step Index fiber: has a narrow core (eight microns or less), and the index of refraction between the core and the cladding changes less than it does for multimode fibers. Light thus travels parallel to the axis, creating little pulse dispersion. Telephone and cable television networks install millions of kilometers of this fiber every year.
15 OVERVIEW OF MOBILE COMMUNICATION A mobile phone uses radio wave signal for its connectivity with the subscriber. Mobile Phone Towers Fig:6 Mobile Tower The mobile phone works on the frequency signal and each mobile phone connection has its own frequency. These frequencies are sending from the basic lower station tower. Each tower has arrange of 5 km in the city circle and there are a number of towers in the city to provide connectivity to each mobile phone subscriber. The city is divided into imaginary hexagon as its area plans out and each hexagon point has a tower for providing frequency signals to the mobile subscriber. When the mobile sends signals to the base tower then it is called uplink signal. When the base tower sends signal to the mobile then its downlink signals on the highways the range of base tower of sending signal to the mobile phone subscribers is 25 km. GSM: What is GSM? If you are in Europe, Asia or Japan and using a mobile phone then most probably you must be using GSM technology in your mobile phone. ī‚§ GSM stands for Global System for Mobile Communication and is an open, digital cellular technology used for transmitting mobile voice and data services. ī‚§ The GSM emerged from the idea of cell-based mobile radio systems at Bell Laboratories in the early 1970s.
16 ī‚§ The GSM is the name of a standardization group established in 1982 to create a common European mobile telephone standard. ī‚§ The GSM standard is the most widely accepted standard and is implemented globally. ī‚§ The GSM is owning a market share of more than 70 percent of the worlds digital cellular subscribers. ī‚§ The GSM makes use of narrowband technique for transmitting signals. ī‚§ The GSM was developed using digital technology. It has an ability to carry 64 kbps to 120 Mbps of data rates. A GSM digitizes and compresses data, then sends it down through a channel with two other streams of user data, each in its own time slot. It operates at either the 900 MHz or 1,800 MHz frequency band. ARCHITECTURE OF THE GSM NETWORK The GSM technical specifications define the different entities that form the GSM network by defining their functions and interface requirements. Fig : 7 Architecture of the GSM network The GSM network can be divided into four main parts: 1.Mobile Station: A Mobile Station consists of two main elements: Terminal- There are different types of terminals distinguished principally by their power and application. SIM- The SIM is a smart card that identifies the terminal. By inserting the SIM card into the terminal, the user can have access to all the subscribed services. Without the SIM card, the terminal is not operational. OMC MSCBSC HLR A MS Other MSCs BTS AUC Other Networks EIR Other MSCs VLRs VLR BSS B C D E F G Un Abis
17 2 The Base Station subsystem: The BSS connects the Mobile Station and the NSS. It is in charge of the transmission and reception. The BSS can be divided into two parts: The Base Transceiver Station The BTS corresponds to the transceivers and antennas used in each cell of the network. A BTS is usually placed in the center of a cell. Its transmitting power defines the size of a cell. Each BTS has between one and sixteen transceivers depending on the density of users in the cell. 3.The Base Station Controller The BSC controls a group of BTS and manages their radio resources. A BSC is principally in charge of handovers, frequency hopping, exchange functions and control of the radio frequency power levels of the BTSs. Function of GSM: Specifications for different Personal Communication Services (PCS) systems vary among the different PCS networks. The GSM specification is listed below with important characteristics. Modulation: Modulation is a form of change process where we change the input information into a suitable format for the transmission medium. We also changed the information by demodulating the signal at the receiving end. The GSM uses Gaussian Minimum Shift Keying (GMSK) modulation method. Transmission Rate: The total symbol rate for GSM at 1 bit per symbol in GMSK produces 270.833 K symbols/second. The gross transmission rate of the time slot is 22.8 Kbps.GSM is a digital system with an over-the-air bit rate of 270 kbps. Frequency Band: The uplink frequency range specified for GSM is 933 - 960 MHz (basic 900 MHz band only).The downlink frequency band 890 - 915 MHz (basic 900 MHz band only).
18 Speech Coding: GSM uses linear predictive coding (LPC). The purpose of LPC is to reduce the bit rate. The LPC provides parameters for a filter that mimics the vocal tract. The signal passes through this filter ,leaving behind a residual signal. Speech is encoded at 13 kbps. CDMA Technology: Code division multiple access (CDMA) is a channel access method used by various radio communication technologies.CDMA is an example of multiple access, where several transmitters can send information simultaneously over a single communication channel. This allows several users to share a band of frequencies . To permit this without undue interference between the users, CDMA employs spread-spectrum technology and a special coding scheme (where each transmitter is assigned a code). CDMA is used as the access method in many mobile phone standards such as cdmaOne, CDMA2000 (the 3G evolution of cdmaOne), and WCDMA (the 3G standard used by GSM carriers), which are often referred to as simply CDMA. Hand Offs in CDMA As the phone moves through a network the system controller transfers the call from one cell to another, this process is called ―handoff‖. Handoffs maybe done with the assistance of the mobile or the system controller will control the process by itself. Handoffs are necessary to continue the call as the phone travels. Handoffs may also occur in idle state due to mobility. Types of Handoffs in CDMA: There are primarily three types of Handoffs in CDMA. They are ī‚ˇ Soft ī‚ˇ Hard and ī‚ˇ Idle. The type of handoff depends on the handoff situation. To understand this we should know the cellular concept used in CDMA. Soft Handoff: A soft handoff establishes a connection with the new BTS prior to breaking the connection with the old one. This is possible because CDMA cells use the same frequency and because the mobile uses a rake receiver. The CDMA mobile assists the network in the handoff. The mobile detects a new pilot as it travels to the next
19 coverage area. The new base station then establishes a connection with the mobile. This new communication link is established while the mobile maintains the link with the old BTS. frequency. Difference Between GSM and CDMA: Global System for Mobile Communications (GSM) and Code Division Multiple Access (CDMA) are two competing standards in cellular service. They both have derivatives for use with 3G phones known as Universal Mobile Telecommunications System (UMTS) and CDMA2000, respectively. The major difference between the two technologies is how they turn voice data into radio waves and how the carrier connects to the phone. Other differences include the coverage area, the data transfer speeds, and the type of hardware used. Coverage Some areas and countries only have one technology available, so users should be sure to review coverage maps before buying a phone. Generally speaking, CDMA is most commonly found in North America and some parts of Asia, while GSM is found in most other places. Some carriers do offer international or "world" phones that can work with both, but if the phone is going to be used predominantly in one area, it may make sense just to get one that's tied to one type. Data Transfer Speed Both technologies can be used with 3G standard phones, but 3G GSM speeds can be faster than 3G CDMA speeds, which can make a big difference for those who use their phones for social networking, email and streaming video. The fastest 3G standard used with CDMA2000 is EV-DO Rev B., which has downstream data rates of about 15.67 Megabits per second (Mbit/s). The fastest standard available with UMTS is HSPA+, with downstream speeds of up to 28 Mbit/s. 4G Things get a little bit more complicated when it comes to phones with 4G. Most US cellular carriers use CDMA. 4G phones generally use LTE (Long Term Evolution), a high speed wireless broadband technology. In most of the world, GSM is preferred and 4G phones with LTE outside of the US use this service. In the US, however, US cellular carriers offering 4G phones have made the switch to LTE on the CDMA service. It is possible to determine which service a smartphone uses with the model number of the phone
20 Introduction To Internet And Broadband INTERNET The internet connection requires a computer which has Internet Explorer software signal and analog signal to digital signal, a telephone line connection. The data is sent through telephone line connection to the local exchange, from where it is then sent to the main exchange. The main exchange consists of a Node. The Node consists of a control card and a modem from where it is sent to its main. Node is in the form of packets. It has two parts- LAN and Control Card. The main Node is connected to the main server which is located at New Delhi. From here It is sent to gateway, which is connected to the World Wide Web (WWW) Internet Connectivity: Telephone Local Exchange (through PCM) LAN Control Card (routers, packet switching) Modem WAN Varanasi (through OFC, B2 Node) Delhi Network Connection Gateway BROADBAND Broadband is often called high-speed Internet, because it usually has a high rate of data transmission. In general, any connection to the customer of 256 kbit/s or more is considered broadband. Types of Broadband: ī‚ˇ Landline Broadband ī‚ˇ Mobile Broadband(3G) ī‚ˇ Fiber Broadband(FTTH) ī‚ˇ Wi-Max Broadband ī‚ˇ CDMA Broadband Fiber Broadband : Fibre to the Home (FTTH) is a unique technology being deployed by BSNL for the first time in India. The fibre connectivity having unlimited bandwidth and state of the art technology provides fix access platform to deliver the high speed broadband from 256 Kbps to 100 Mbps, IPTV having different type of contents like HDTV and future coming 3D TV and range of voice telephony services. It provides a comprehensive solution for the IP leased line, internet, Closed User Group (CUG), MPLS-VPN, VoIP, video conferencing, video calls etc whatever the services available on the internet platform, bandwidth on demand can be delivered by this connectivity to the without changing the access fibre and home device. Customer will get a
21 CPE called Home Optical Network Termination (HONT) consist of 4X100 Mpbs Ethernet ports and 2 normal telephone ports. Each 100 Mbps ports will provide broadband, IPTVs, IP Video call and leased line etc as required by the customers. Customer will get power back unit having full load backup of four hours and normal backup of three days. This power backup will be AC input and connecting to the HONT on 12V DC. Connectivity via FTTH: BSNL will extend fiber from its nearest Central Office (CO) location directly or through franchisee and install HONT and battery backup at the customers identified locations. The services such as Voice, Broadband, IPTV etc. will be enabled as per the customer”s request plans for the same. Wi –Max Broadband: Wi-MAX is a unique technology being deployed by BSNL for the first time in India. This technology provides fixed as well as fully mobile high speed broadband connectivity along with roaming feature. It provides users a thrilling Internet browsing experience. Connecting to Wi-MAX : BSNL offers large variety of Customer Premises Equipments ( CPE) including Outdoor, Indoor and USB dongles from which customers can choose as per their application requirements.
22 CONCLUSION The working in the project was an interesting and an all together learning experience. New technologies, new progress and new competition are the order of the day. The core area to look for is highly fragmented and information intense activity sequence that involves a number of player and audiences. The project mainly revolves around: EWSD, TAX, internet node, mobile communication, WL Land intelligence network. The emphasis of the different parts of the project is to throw light on the systems working in Varanasi Main Exchange. The project also deals with modern technologies attributes and the scope of implementation of the same in Varanasi. The area under study was limited to Main Exchange Mobile communications and the internet are now an essential part of everyday life. The course is given me a thorough understanding of the theoretical and practical engineering aspects of this rapidly changing field, as well as new emerging systems for support of broadband mobile internet (4G and 5G). . The scope of the study is very vast and the topic under study deals with the volatile technology world. After the study, suggestions and strategy has been formulated keeping in view the limitations of the field. Evolution of this technological world is occurring every minute. Thanks to telecom and web technologies, countries are coming closer day by day.
23 REFERENCES Websites- ī‚§ http://bsnl.co.in ī‚§ http://www.bsnl.in/opencms/nl/BSNL/services/broadband/index.htmlbs ī‚§ http://www.webopedia.com/TERM/F/fiber_optics.html ī‚§ https://en.wikipedia.org/wiki/GSM ī‚§ http://www.wisegeek.org/what-is-the-difference-between-gsm-and-cdma.htm ī‚§ http://search.findwide.com/serp?serpv=6&action=toolbar_search&guid=&k=cdma ī‚§ http://chennai.bsnl.co.in ī‚§ http://youtube/bsnl work Books – ī‚§ Networking System ī‚§ Overview of mobile computing ī‚§ GSM architecture

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Bsnl report

  • 1. 1 COMPANY PROFILE Introduction Bharat Sanchar Nigam Limited (abbreviated BSNL) is an Indian state owned telecommunications company headquartered in New Delhi, India. It was incorporated on 15 September 2000 and took over the business of providing of telecom services and network management from the erstwhile Central Government Departments of Telecom Services (DTS) and Telecom Operations (DTO), with effect from 1 October 2000 on a going concern basis. It is the largest provider of fixed telephony, largest broadband services provider with more than 60% Market share, and fifth largest mobile telephony provider in India. However, in recent years the company's revenues and market share have plummeted into heavy losses due to intense competition in the Indian telecommunications sector. BSNL is India's oldest and largest communication service provider (CSP). It had a customer base of 12 crores as of June 2015. It has footprints throughout India except for the metropolitan cities of Mumbai and New Delhi, which are managed by Mahanagar Telephone Nigam (MTNL). Every day we make phone calls from our telephone sets quite easily but are unaware of the technology used behind it. The technologies used in telecommunication is a bit complicated but at the same time interesting too. Here it has been tried to give an idea of the different technologies used for telecommunication by one of the biggest service provides to India, i.e., BHARAT SANCHAR NIGAM LTD.(BSNL) The service provided by BSNL to its customers is:- ī‚ˇ Basic local telephony ī‚ˇ National and International call service ī‚ˇ Mobile Communication ī‚ˇ Internet Service The basic telephony i.e., the local call facility provided to the consumers by BSNL comprises of the following:- ī‚ˇ Exchange ī‚ˇ Main Distribution Frame ī‚ˇ Line Connection ī‚ˇ Power Plant
  • 2. 2 History BSNL, then known as the Department of Telecommunications, had been a near monopoly during the socialist period of the Indian economy. During this period, BSNL was the only telecom service provider in the country. MTNL was present only in Mumbai and New Delhi. During this period BSNL operated as a typical state-run organization, inefficient, slow, bureaucratic, and heavily unionised. As a result, subscribers had to wait for as long as five years to get a telephone connection. The corporation tasted competition for the first time after the liberalisation of Indian economy in 1991. Faced with stiff competition from the private telecom service providers, BSNL has subsequently tried to increase efficiencies itsel BSNL was born in 2000 after the corporatization of DoT. The corporatization of BSNL was undertaken by an external international consulting team consisting of a consortium of A.F.Ferguson & Co, JB Dadachanji and NM Rothschild - and was probably the most complex corporatisation exercise of its kind ever attempted anywhere because of the quantum of assets (said to be worth USD 50 Billion in terms of breakup value) and over half a million directly and indirectly employed staff. BSNL has been providing connections in both urban and rural areas. Pre-activated Mobile connections are available at many places across India. BSNL has also unveiled cost-effective broadband internet access plans (DataOne) targeted at homes and small businesses. At present BSNL enjoy's around 60% of market share of ISP services. 2007 was declared as "Year of Broadband" in India and BSNL announced plans for providing 5 million broadband connectivity by the end of 2007. The introduction of MNP(Mobile Number Portability) which is an service that lets the consumer change wireless service providers while retaining their actual mobile number, BSNL has seen many customers opting for this service to move away from the services to other operators. Despite this as the Indian Wireless market grows BSNL still has a loyal base of subscribers and many more subscribers being added to it every day. This provides customer services for 95 million as of June 2011. BSNL announced the discontinuation of its telegram services from 15 July 2013, after 160 years in service. It was opened to the public in February 1855; in 2010 it was upgraded to a web-based messaging system in 2010, through 182 telegraph offices across India
  • 3. 3 Vision ī‚ˇ Be the leading telecom service provider in India with global presence. ī‚ˇ Create a customer focused organization with excellence in customer care, sales and marketing. ī‚ˇ Leverage technology to provide affordable and innovative telecom. Services/products across customer segments. Mission Be the leading telecom service provider in India with global presence. ī‚ˇ Generating value for all stakeholders - employees, shareholders, vendors & business associates ī‚ˇ Maximizing return on existing assets with sustained focus on profitability ī‚ˇ Becoming the most trusted, preferred and admired telecom brand ī‚ˇ To explore International markets for Global presence Creating a customer focused organization with excellence in customer care, sales & marketing . ī‚ˇ Developing a marketing and sales culture that is responsive to customer needs care, sales& marketing ī‚ˇ Excellence in customer service-”friendly, reliable, time bound, convenient and courteous service” Leveraging technology to provide affordable and innovative products/ services across customer segments ī‚ˇ Offering differentiated products/services tailored to different service segments ī‚ˇ Providing reliable telecom services that are value for money Providing a conducive work environment with strong focus on performance ī‚ˇ Attracting talent and keeping them motivated ī‚ˇ Enhancing employees skills and utilizing them effectively ī‚ˇ Encouraging and rewarding individual and team/group performance Establishing efficient business processes enabled by IT ī‚ˇ Changing policies and processes to enable transparent, quick and efficient decision making ī‚ˇ Building effective IT systems and tools
  • 4. 4 Objective ī‚ˇ To be the Leading Telecom Services provider by achieving higher rate of growth so as to become a profitable enterprise. ī‚ˇ To provide quality and reliable fixed telecom service to our customer and thereby increase customers confidence. ī‚ˇ To provide customer friendly mobile telephone service of high quality and play a leading role as GSM operator in its area of operation. Contribute towards: ī‚ˇ Broadband customers base of 20 Mn in India by the end of 2011-12 as per broadband policy 2004. ī‚ˇ Providing telephone connections in villages as per Government policy.
  • 5. 5 ABOUT THR TELEPHONE EXCHANGE In the field of, a telephone exchange or telephone switch is a system of electronic components that connects telephone calls. A central office is the physical building used to house equipment including telephone switches, which make "work" in the sense of making connections and relaying the speech information. Fig. 1: The Digital Exchange Types of Exchange: ī‚ˇ Manual exchange ī‚ˇ Strowger exchange (automatic exchange) ī‚ˇ Electronics analog and digital exchange 1.MANUAL EXCHANGE: With manual service, the customer lifts the receiver off-hook and asks the operator to connect the call to a requested number. Provided that the number is in the same central office, the operator connects the call by plugging into the jack on the switchboard corresponding to the called customers line. If the call is to another central office, the operator plugs into the trunk for the other office and asks the operator answering (known as the "inward" operator) to connect the call.
  • 6. 6 2.AUTOMATIC EXCHANGE: Strowger developed a system of automatic switching using an electromechanical switch based around electromagnets and pawls. With the help of his nephew (Walter S. Strowger) he produced a working model in 1888 .selector starts in the home position and with each impulse the wiper contacts would progress round the output bank to the next position. Each output would be connected to a different subscriber, thus the caller could connect to any other subscriber who was connected to that bank, without any manual assistance from an operator. Diagram of a simple Selector 3.DIGITAL EXCHANGE: It is based on the automatic control by stored programmed in computer linked to it. It cover al l the main drawbacks of above mentioned exchange. It may be digital or analog but mostly digital electronics exchanges are now common. It base on the principal time division switching or space division switching. Space division switching is used for analog electronics exchange and time division switching is used for digital exchange. Space Division switching System In a space Division Switching system, a continuous physical path is set up between input and output terminations. This path is separate for each connection and is held for the entire duration of the call. Path for different connections is independent of each other. Once a continuous path has been established., Signals are interchanged between the two terminations. Such a switching network can employ either metallic or electronic cross points. Previously, usage of metallic cross-points using reed relays and all were favored. They have the advantage of compatibility with the existing line and trunk signaling conditions in the network. Time Division Switching System In Time Division Switching, a number of calls share the same path on time division sharing basis. The path is not separate for each connection, rather, is shared sequentially for a fraction of a time by different calls. This process is repeated periodically at a suitable high rate.
  • 7. 7 LOCAL AND TRUNK EXCHANGE Trunk Lines The term Trunk Line in telecommunications refers to the high-speed connection between telephone central offices in the. Trunk lines are always digital. The wiring between central offices was originally just pairs of twisted copper wire (the twists in the wiring prevented things known as crosstalk and noise). Because it is expensive to string up (or lay trenches for buried cables), the phone company researched ways in which to carry more data over the existing copper lines. This was achieved by using. Later, when fiber-optic technology became available, phone companies upgraded their trunk lines to fiber optics and used statistical time-division multiplexing, , coarse or dense wave division multiplexing and optical switching to further improve transmission speeds. The signaling information exchanged between different exchanges via inter exchange trunks for the routing of calls is termed as Inter exchange Signaling. Earlier in band /out of band frequencies were used for transmitting signaling information. Later on, with the emergence of PCM systems, it was possible to segregate the signaling from the speech channel. A trunk line isa connecting (or other switching equipment), as distinguished from local loop circuit which extends from telephone exchange switching equipment to individual or information origination/termination equipment. When dealing with a private branch exchange (PBX), trunk lines are the phone lines coming into the PBX from the telephone provider. This differentiates . these incoming lines from extension telephone lines that connect the PBX to (usually) individual phone sets. Trunking saves cost, because there are usually fewer trunk lines than extension lines, since it is unusual in most offices to have all extension lines in use for external calls at once. Trunk lines transmit voice and data in formats such as analog, digital signal 1, ISDN or primary rate interface. The dial tone lines for outgoing calls are called DDCO (Direct Dial Central Office) trunks. Trunk lines can contain thousands of simultaneous calls that have been combined using. These thousands of calls are carried from one central office to another where they can be connected to a de-multiplexing device and switched through digital access cross connecting switches to reach the proper exchange and local phone number.
  • 8. 8 PCM PCM Principle: A long distance or local telephone conversation between two persons could be provided by using a pair of open wire lines or underground cable as early as mid of 19 th century. However, due to fast industrial development and an increased telephone awareness, demand for trunk and local traffic went on increasing at a rapid rate. To cater to the increased demand of traffic between two stations or between two subscribers at the same station we resorted to the use of an increased number of pairs on either wire alignment, or in underground cable. This could solve the problem for sometime only as there is a limit to the number of open wire pairs that can be installed on one alignment due to headway consideration and maintenance problems. Similarly increasing the number of open wire pairs that can be installed on one alignment due to headway consideration and maintenance problems. Similarly increasing the number of pairs to the underground cable is uneconomical and leads to maintenance problems. It, therefore became imperative to think of new technical innovations which could exploit the available bandwidth of transmission media such as open wire lines or underground cables to provide more number of circuits on one pair. The technique used to provide a number of circuits using a single transmission link is called Multiplexing. MULTIPLEXING TECHNIQUES There are basically two types of multiplexing techniques 1. Frequency Division Multiplexing (FDM) 2. Time Division Multiplexing (TDM) 1.Frequency Division Multiplexing Techniques (FDM): The FDM techniques is the process of translating individual speech circuits (300-3400 Hz) into pre-assigned frequency slots within the bandwidth of the transmission medium. The frequency translation is done by amplitude modulation of the audio frequency with an appropriate carrier frequency. At the output of the modulator a filter network is connected to select either a lower or an upper side band. Since the intelligence is carried in either side band, single side band suppressed carrier mode of AM is used. This results in substantial saving of bandwidth mid also permits the use of low power amplifiers. Please refer Fig. 1. FDM techniques usually find their application in analogue transmission systems. An analogue transmission system is one which is used for transmitting continuously varying signals.
  • 9. 9 Fig.2 FDM Principle 2.Time Division Multiplexing: Basically, time division multiplexing involves nothing more than sharing a transmission medium by a number of circuits in time domain by establishing a sequence of time slots during which individual channels (circuits) can be transmitted. Thus the entire bandwidth is periodically available to each channel. Normally all time slots1 are equal in length. Each channel is assigned a time slot with a specific common repetition period called a frame interval. This is illustrated in Fig. 2. Fig.3 Time Division Multiplexing Each channel is sampled at a specified rate and transmitted for a fixed duration. All channels are sampled one by, the cycle is repeated again and again. The channels are connected to individual gates which are opened
  • 10. 10 one by one in a fixed sequence. At the receiving end also similar gates are opened in unison with the gates at the transmitting end. The signal received at the receiving end will be in the form of discrete samples and these are combined to reproduce the original signal. Thus, at a given instant of time, onty one channel is transmitted through the medium, and by sequential sampling a number of channels can be staggered in time as opposed to transmitting all the channel at the same time as in EDM systems. This staggering of channels in time sequence for transmission over a common medium is called Time Division Multiplexing (TDM). Pulse Code Modulation(PCM): It was only in 1938, Mr. A.M. Reaves (USA) developed a Pulse Code Modulation (PCM) system to transmit the spoken word in digital form. Since then digital speech transmission has become an alternative to the analogue systems. PCM systems use TDM technique to provide a number of circuits on the same transmission medium viz open wire or underground cable pair or a channel provided by carrier, coaxial, microwave or satellite system.
  • 11. 11 FIBRE OPTICS COMMUNICATION Fiber Optics: The use and demand for optical fiber has grown tremendously and optical-fiber applications are numerous. Telecommunication applications are widespread, ranging from global networks to desktop computers. These involve the transmission of voice, data, or video over distances of less than a meter to hundreds of kilometers, using one of a few standard fiber designs in one of several cable designs. Carriers use optical fiber to carry plain old telephone service (POTS) across their nation wide networks. Local exchange carriers (LECs) use fiber to carry this same service between central office switches at local levels, and sometimes as far as the neighborhood or individual home(fiber to the home [FTTH]). Optical fiber is also used extensively for transmission of data. Multinational firms need secure ,reliable systems to transfer data and financial information between buildings to the desktop terminals or computers and to transfer data around the world. Cable television companies also use fiber for delivery of digital video and data services. The high bandwidth provided by fiber makes it the perfect choice for transmitting broadband signals, such as high-definition television(HDTV) telecasts. Intelligent transportation systems, such as smart highways with intelligent traffic lights, automated tollbooths, and changeable message signs, also use fiber-optic-based telemetry systems. ADVANTAGES OF FIBRE OPTICS : Fiber Optics has the following advantages : ī‚§ SPEED: Fiber optic networks operate at high speeds - up into the gigabits ī‚§ BANDWIDTH: large carrying capacity ī‚§ DISTANCE: Signals can be transmitted further without needing to be "refreshed" or strengthened. ī‚§ RESISTANCE: Greater resistance to electromagnetic noise such as radios, motors or other nearby cables. ī‚§ MAINTENANCE: Fiber optic cables costs much less to maintain. Fiber Optic System : Optical Fiber is new medium, in which information (voice, Data or Video) is transmitted through glass or plastic fibre, in the form of light, following the transmission sequence give below : (1) Information is Encoded into Electrical Signals.
  • 12. 12 (2) Electrical Signals are Converted into light Signals. (3) Light Travels Down the Fiber. (4) A Detector Changes the Light Signals into Electrical Signals. (5) Electrical Signals are Decoded into Information.- - Inexpensive light sources available. - Repeater spacing increases along with operating speeds because low loss fibers are used at high data rates. Fig:4 Communication through fiber optics Principle of Operation - Theory : Total Internal Reflection - The Reflection that Occurs when a Light Ray Travelling in One Material Hits a Different Material and Reflects Back into the Original Material without any Loss of Light. Propagation of light through Optical Fiber: The optical fiber has two concentric layers called the core and the cladding. The inner core is the light carrying part. The surrounding cladding provides the difference refractive index that allows total internal reflection of light through the core. The index of the cladding is less than 1%, lower than that of the core. Typical values for example are a core refractive index of 1.47 and a cladding index of 1.46. Fiber manufacturers control this difference to obtain desired optical fiber characteristics. Most fibers have an additional coating around the cladding. This buffer coating is a shock absorber and has no optical properties affecting the propagation of light within the fiber. Figure shows the idea of light travelling through a fiber. Light injected into the fiber and striking core to cladding interface at greater than the critical angle, reflects
  • 13. 13 back into core, since the angle of incidence and reflection are equal, the reflected light will again be reflected. The light will continue zigzagging down the length of the fiber. Light striking the interface at less than the critical angle passes into the cladding, where it is lost over distance. The cladding is usually inefficient as a light carrier, and light in the cladding becomes attenuated fairly .Propagation of light through fiber is governed by the indices of the core and cladding by Snells law. Fig:5 Light travelling through optical fiber The specific characteristics of light propagation through a fiber depends on many factors, including- ī‚§ The size of the fiber.- ī‚§ The composition of the fiber. ī‚§ The light injected into the fiber. Jacket Cladding Core Cladding (n2) Cladding Core (n2) Jacket Light at less than Angle of Angle of critical angle is incidence reflection absorbed in jacket Light is propagated by total internal reflection Fig. Total Internal Reflection in an optical Fibre 50 m and a cladding diameter of 125 m. FIBER TYPES The refractive Index profile describes the relation between the indices of the core and cladding. Two main relationship exists : ī‚§ Step Index
  • 14. 14 ī‚§ Graded Index The step index fiber has a core with uniform index throughout. The profile shows a sharp step at the junction of the core and cladding. In contrast, the graded index has a non-uniform core. The Index is highest at the center and gradually decreases until it matches with that of the cladding. There is no sharp break in indices between the core and the cladding. By this classification there are three types of fibers : ī‚§ Multimode Step Index fiber (Step Index fiber) ī‚§ Multimode graded Index fiber (Graded Index fiber) ī‚§ Single- Mode Step Index fiber (Single Mode Fiber) Multimode Step Index fiber : a large core, up to 100 microns in diameter. As result, some of the light rays that make up the digital pulse may travel a direct route, whereas others zigzag as they bounce off the cladding. These alternative pathways cause the different groupings of light rays, referred to as modes, to arrive separately at a receiving point. The pulse, an aggregate of different modes, begins to spread out, losing its well-defined shape. The need to leave spacing between pulses to prevent overlapping limits bandwidth that is, the amount of information that can be sent. Consequently, this type of fiber is best suited for transmission overshot distances, in an endoscope, for instance. Multimode graded Index fiber : contains a core in which the refractive index diminishes gradually from the center axis out toward the cladding. The higher refractive index at the center makes the light rays moving down the axis advance more slowly than those near the cladding. Also, rather than zigzagging off the cladding, light in the core curves helically because of the graded index, reducing its travel distance. The shortened path and the higher speed allow light at the periphery to arrive at a receiver at about the same time as the slow but straight rays in the core axis. The result: a digital pulse suffers less dispersion. Single- Mode Step Index fiber: has a narrow core (eight microns or less), and the index of refraction between the core and the cladding changes less than it does for multimode fibers. Light thus travels parallel to the axis, creating little pulse dispersion. Telephone and cable television networks install millions of kilometers of this fiber every year.
  • 15. 15 OVERVIEW OF MOBILE COMMUNICATION A mobile phone uses radio wave signal for its connectivity with the subscriber. Mobile Phone Towers Fig:6 Mobile Tower The mobile phone works on the frequency signal and each mobile phone connection has its own frequency. These frequencies are sending from the basic lower station tower. Each tower has arrange of 5 km in the city circle and there are a number of towers in the city to provide connectivity to each mobile phone subscriber. The city is divided into imaginary hexagon as its area plans out and each hexagon point has a tower for providing frequency signals to the mobile subscriber. When the mobile sends signals to the base tower then it is called uplink signal. When the base tower sends signal to the mobile then its downlink signals on the highways the range of base tower of sending signal to the mobile phone subscribers is 25 km. GSM: What is GSM? If you are in Europe, Asia or Japan and using a mobile phone then most probably you must be using GSM technology in your mobile phone. ī‚§ GSM stands for Global System for Mobile Communication and is an open, digital cellular technology used for transmitting mobile voice and data services. ī‚§ The GSM emerged from the idea of cell-based mobile radio systems at Bell Laboratories in the early 1970s.
  • 16. 16 ī‚§ The GSM is the name of a standardization group established in 1982 to create a common European mobile telephone standard. ī‚§ The GSM standard is the most widely accepted standard and is implemented globally. ī‚§ The GSM is owning a market share of more than 70 percent of the worlds digital cellular subscribers. ī‚§ The GSM makes use of narrowband technique for transmitting signals. ī‚§ The GSM was developed using digital technology. It has an ability to carry 64 kbps to 120 Mbps of data rates. A GSM digitizes and compresses data, then sends it down through a channel with two other streams of user data, each in its own time slot. It operates at either the 900 MHz or 1,800 MHz frequency band. ARCHITECTURE OF THE GSM NETWORK The GSM technical specifications define the different entities that form the GSM network by defining their functions and interface requirements. Fig : 7 Architecture of the GSM network The GSM network can be divided into four main parts: 1.Mobile Station: A Mobile Station consists of two main elements: Terminal- There are different types of terminals distinguished principally by their power and application. SIM- The SIM is a smart card that identifies the terminal. By inserting the SIM card into the terminal, the user can have access to all the subscribed services. Without the SIM card, the terminal is not operational. OMC MSCBSC HLR A MS Other MSCs BTS AUC Other Networks EIR Other MSCs VLRs VLR BSS B C D E F G Un Abis
  • 17. 17 2 The Base Station subsystem: The BSS connects the Mobile Station and the NSS. It is in charge of the transmission and reception. The BSS can be divided into two parts: The Base Transceiver Station The BTS corresponds to the transceivers and antennas used in each cell of the network. A BTS is usually placed in the center of a cell. Its transmitting power defines the size of a cell. Each BTS has between one and sixteen transceivers depending on the density of users in the cell. 3.The Base Station Controller The BSC controls a group of BTS and manages their radio resources. A BSC is principally in charge of handovers, frequency hopping, exchange functions and control of the radio frequency power levels of the BTSs. Function of GSM: Specifications for different Personal Communication Services (PCS) systems vary among the different PCS networks. The GSM specification is listed below with important characteristics. Modulation: Modulation is a form of change process where we change the input information into a suitable format for the transmission medium. We also changed the information by demodulating the signal at the receiving end. The GSM uses Gaussian Minimum Shift Keying (GMSK) modulation method. Transmission Rate: The total symbol rate for GSM at 1 bit per symbol in GMSK produces 270.833 K symbols/second. The gross transmission rate of the time slot is 22.8 Kbps.GSM is a digital system with an over-the-air bit rate of 270 kbps. Frequency Band: The uplink frequency range specified for GSM is 933 - 960 MHz (basic 900 MHz band only).The downlink frequency band 890 - 915 MHz (basic 900 MHz band only).
  • 18. 18 Speech Coding: GSM uses linear predictive coding (LPC). The purpose of LPC is to reduce the bit rate. The LPC provides parameters for a filter that mimics the vocal tract. The signal passes through this filter ,leaving behind a residual signal. Speech is encoded at 13 kbps. CDMA Technology: Code division multiple access (CDMA) is a channel access method used by various radio communication technologies.CDMA is an example of multiple access, where several transmitters can send information simultaneously over a single communication channel. This allows several users to share a band of frequencies . To permit this without undue interference between the users, CDMA employs spread-spectrum technology and a special coding scheme (where each transmitter is assigned a code). CDMA is used as the access method in many mobile phone standards such as cdmaOne, CDMA2000 (the 3G evolution of cdmaOne), and WCDMA (the 3G standard used by GSM carriers), which are often referred to as simply CDMA. Hand Offs in CDMA As the phone moves through a network the system controller transfers the call from one cell to another, this process is called ―handoff‖. Handoffs maybe done with the assistance of the mobile or the system controller will control the process by itself. Handoffs are necessary to continue the call as the phone travels. Handoffs may also occur in idle state due to mobility. Types of Handoffs in CDMA: There are primarily three types of Handoffs in CDMA. They are ī‚ˇ Soft ī‚ˇ Hard and ī‚ˇ Idle. The type of handoff depends on the handoff situation. To understand this we should know the cellular concept used in CDMA. Soft Handoff: A soft handoff establishes a connection with the new BTS prior to breaking the connection with the old one. This is possible because CDMA cells use the same frequency and because the mobile uses a rake receiver. The CDMA mobile assists the network in the handoff. The mobile detects a new pilot as it travels to the next
  • 19. 19 coverage area. The new base station then establishes a connection with the mobile. This new communication link is established while the mobile maintains the link with the old BTS. frequency. Difference Between GSM and CDMA: Global System for Mobile Communications (GSM) and Code Division Multiple Access (CDMA) are two competing standards in cellular service. They both have derivatives for use with 3G phones known as Universal Mobile Telecommunications System (UMTS) and CDMA2000, respectively. The major difference between the two technologies is how they turn voice data into radio waves and how the carrier connects to the phone. Other differences include the coverage area, the data transfer speeds, and the type of hardware used. Coverage Some areas and countries only have one technology available, so users should be sure to review coverage maps before buying a phone. Generally speaking, CDMA is most commonly found in North America and some parts of Asia, while GSM is found in most other places. Some carriers do offer international or "world" phones that can work with both, but if the phone is going to be used predominantly in one area, it may make sense just to get one that's tied to one type. Data Transfer Speed Both technologies can be used with 3G standard phones, but 3G GSM speeds can be faster than 3G CDMA speeds, which can make a big difference for those who use their phones for social networking, email and streaming video. The fastest 3G standard used with CDMA2000 is EV-DO Rev B., which has downstream data rates of about 15.67 Megabits per second (Mbit/s). The fastest standard available with UMTS is HSPA+, with downstream speeds of up to 28 Mbit/s. 4G Things get a little bit more complicated when it comes to phones with 4G. Most US cellular carriers use CDMA. 4G phones generally use LTE (Long Term Evolution), a high speed wireless broadband technology. In most of the world, GSM is preferred and 4G phones with LTE outside of the US use this service. In the US, however, US cellular carriers offering 4G phones have made the switch to LTE on the CDMA service. It is possible to determine which service a smartphone uses with the model number of the phone
  • 20. 20 Introduction To Internet And Broadband INTERNET The internet connection requires a computer which has Internet Explorer software signal and analog signal to digital signal, a telephone line connection. The data is sent through telephone line connection to the local exchange, from where it is then sent to the main exchange. The main exchange consists of a Node. The Node consists of a control card and a modem from where it is sent to its main. Node is in the form of packets. It has two parts- LAN and Control Card. The main Node is connected to the main server which is located at New Delhi. From here It is sent to gateway, which is connected to the World Wide Web (WWW) Internet Connectivity: Telephone Local Exchange (through PCM) LAN Control Card (routers, packet switching) Modem WAN Varanasi (through OFC, B2 Node) Delhi Network Connection Gateway BROADBAND Broadband is often called high-speed Internet, because it usually has a high rate of data transmission. In general, any connection to the customer of 256 kbit/s or more is considered broadband. Types of Broadband: ī‚ˇ Landline Broadband ī‚ˇ Mobile Broadband(3G) ī‚ˇ Fiber Broadband(FTTH) ī‚ˇ Wi-Max Broadband ī‚ˇ CDMA Broadband Fiber Broadband : Fibre to the Home (FTTH) is a unique technology being deployed by BSNL for the first time in India. The fibre connectivity having unlimited bandwidth and state of the art technology provides fix access platform to deliver the high speed broadband from 256 Kbps to 100 Mbps, IPTV having different type of contents like HDTV and future coming 3D TV and range of voice telephony services. It provides a comprehensive solution for the IP leased line, internet, Closed User Group (CUG), MPLS-VPN, VoIP, video conferencing, video calls etc whatever the services available on the internet platform, bandwidth on demand can be delivered by this connectivity to the without changing the access fibre and home device. Customer will get a
  • 21. 21 CPE called Home Optical Network Termination (HONT) consist of 4X100 Mpbs Ethernet ports and 2 normal telephone ports. Each 100 Mbps ports will provide broadband, IPTVs, IP Video call and leased line etc as required by the customers. Customer will get power back unit having full load backup of four hours and normal backup of three days. This power backup will be AC input and connecting to the HONT on 12V DC. Connectivity via FTTH: BSNL will extend fiber from its nearest Central Office (CO) location directly or through franchisee and install HONT and battery backup at the customers identified locations. The services such as Voice, Broadband, IPTV etc. will be enabled as per the customer”s request plans for the same. Wi –Max Broadband: Wi-MAX is a unique technology being deployed by BSNL for the first time in India. This technology provides fixed as well as fully mobile high speed broadband connectivity along with roaming feature. It provides users a thrilling Internet browsing experience. Connecting to Wi-MAX : BSNL offers large variety of Customer Premises Equipments ( CPE) including Outdoor, Indoor and USB dongles from which customers can choose as per their application requirements.
  • 22. 22 CONCLUSION The working in the project was an interesting and an all together learning experience. New technologies, new progress and new competition are the order of the day. The core area to look for is highly fragmented and information intense activity sequence that involves a number of player and audiences. The project mainly revolves around: EWSD, TAX, internet node, mobile communication, WL Land intelligence network. The emphasis of the different parts of the project is to throw light on the systems working in Varanasi Main Exchange. The project also deals with modern technologies attributes and the scope of implementation of the same in Varanasi. The area under study was limited to Main Exchange Mobile communications and the internet are now an essential part of everyday life. The course is given me a thorough understanding of the theoretical and practical engineering aspects of this rapidly changing field, as well as new emerging systems for support of broadband mobile internet (4G and 5G). . The scope of the study is very vast and the topic under study deals with the volatile technology world. After the study, suggestions and strategy has been formulated keeping in view the limitations of the field. Evolution of this technological world is occurring every minute. Thanks to telecom and web technologies, countries are coming closer day by day.
  • 23. 23 REFERENCES Websites- ī‚§ http://bsnl.co.in ī‚§ http://www.bsnl.in/opencms/nl/BSNL/services/broadband/index.htmlbs ī‚§ http://www.webopedia.com/TERM/F/fiber_optics.html ī‚§ https://en.wikipedia.org/wiki/GSM ī‚§ http://www.wisegeek.org/what-is-the-difference-between-gsm-and-cdma.htm ī‚§ http://search.findwide.com/serp?serpv=6&action=toolbar_search&guid=&k=cdma ī‚§ http://chennai.bsnl.co.in ī‚§ http://youtube/bsnl work Books – ī‚§ Networking System ī‚§ Overview of mobile computing ī‚§ GSM architecture