Use For Telephone Operators 2 4 example essay topic

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Telecommunication 1. Introduction Computer and telephone networks inflict a gigantic impact on today " society. From letting you call John in Calgary to letting you make a withdraw at your friendly ATM machine they control the flow of information. But today's complicated and expensive networks did not start out big and complicated but rather as a wire and two terminals back in 1844. From these simple networks to the communication giants of today we will look at the evolution of the network and the basis on which it functions.

2. The Beginnings 2.1. Dot Dot Dot Dash Dash Dash Dot Dot Dot The network is defined as a system of lines or structures that cross. In telecommunications this is a connection of peripherals together so that they can exchange information.

The first such exchange of information was on May 24, 1844 when Samuel Morse sent the famous message 'What hath God wrought' from the US Capitol in Washington D.C. across a 37 mile wire to Baltimore using the telegraph. The telegraph is basically an electromagnet connected to a battery via a switch. When the switch is down the current flows from the battery through the key, down the wire, and into the sounder at the other end of the line. By itself the telegraph could express only two states, on or off. This limitation was eliminated by the fact that it was the duration of the connection that determined the dot and dash from each other being short and long respectively. From these combinations of dots and dashes the Morse code was formed.

The code included all the letters of the English alphabet, all the numbers and several punctuation marks. A variation to the telegraph was a receiving module that Morse had invented. The module consisted of a mechanically operated pencil and a roll of paper. When a message was received the pencil would draw the corresponding dashes and dots on the paper to be deciphered later.

Many inventors including Alexander Bell and Thomas Edison sought to revolutionize the telegraph. Edison devised a deciphering machine. This machine when receiving Morse code would print letters corresponding to the Morse code on a roll of paper hence eliminating the need for decoding the code. 2.2. Mr. Watson, Come Here!

The first successful telephone was invented by Alexander Graham Bell. He along with Elisha Gray fought against time to invent and patent the telephone. They both patented their devices on the same day-February 14, 1876- but Bell arrived a few hours ahead of gray thus getting the patent on the telephone. The patent issued to Bell was number 174,465, and is considered the most valuable patent ever issued. Bell quickly tried to sell his invention to Western Union but they declined and hired Elisha Gray and Thomas Edison to invent a better telephone.

A telephone battle began between Western Union and Bell. Soon after Bell filed suit against Western Union and won since he had possessed the basic rights and patents to the telephone. As a settlement Western Union handed over it's whole telephone network to Bell giving him a monopoly in the telephone market. During his experiments to create a functional telephone Bell pursued two separate designs for the telephone transmitter. The first used a membrane attached to a metal rod. The metal rod was submerged in a cup of mild acid.

As the user spoke into the transmitter the membrane vibrated which in turn moved the rod up and down in the acid. This motion of the rod in the acid caused variations in the electrical resistance between the rod and the cup of acid. One of the greatest drawbacks to this model was that the cup of acid would have to be constantly refilled. The second of Bell's prototypes was the induction telephone transmitter. It used the principle of magnetic induction to change sound into electricity.

The membrane was attached to a metal rod which was surrounded by a coil of wire. The movement of the rod in the coil produced a weak electric current. An advantage was that theoretically it could also be used both as a transmitter and a receiver. But since the current produced was so weak, it was unsuccessful as a transmitter. Most modern day telephones still use a variation of Bell's design. The first practical transmitter was invented by Thomas Edison while he was working for the Western Union.

During his experiments Edison noticed that certain carbon compounds change their electrical resistance when subjected to varying pressure. So he sandwiched a carbon button between a metal membrane and a metal support. The motion of the membrane changed the pressure on the carbon button, varying the flow of electricity through the microphone. When the Bell vs. Western Union lawsuit was settled the rights to this transmitter were also taken over by Bell. 2.3. Please Wait, I'll Connect You.

The first network of telephones consisted of switchboards. When a customer wanted to place a call he would turn a crank on his telephone terminal at home. This would produce a current through the line. A light at the switchboard would light up. The caller would tell the operator where he wanted to call and she would connect him by means of inserting a plug into a jack corresponding to the desired phone.

In earlier years he found that he could use the ground as the return part of the circuit, but this left the telephone very susceptible to interference from anything electrical. So in the mid 1880's Bell realized that he would have to change the telephone networks from one wire to two wire. In 1889 Alm on Brown Stronger invented the telephone dial which eliminated the use for telephone operators. 2.4. The Free Press Reported That President Carter... French inventor Emile Baudot created the first efficient printing telegraph. The printing telegraph was the first to use a typewriter like keyboard and allowed eight users to use the same line.

More importantly, his machines did not use Morse code. Baudot's five level code sent five pulses for each character transmitted. The machines did the encoding and decoding, eliminating the need for operators. After some improvements by Donald Murray the rights to the machine were sold to Western Union and Western Electric.

The machine was named the teletypewriter and was also known by it's nickname TTY. Service called telex was offered by Western Union. It allowed subscribers to exchange typed messages with one another. 3.

From The Carterfone to the 14, 4003.1. I'll Patch Her Up On The Carterfone, Captain. The first practical computers used the means of punched cards as a method of storing data. These punched cards held 80 characters each. They dated back to the mechanical vote-counting machine invented by Her men Hollerith in 1890.

But this type of computer was very hard and expensive to operate. They were very slow in computing speed and the punch cards could be very easily lost or destroyed. One of the first V DTs (Video Display Terminal) was the Lear-Sigler ADM-3 A. It could display 24 lines of 80 characters each (a remarkable feat of technology). One of the regulations that AT&T passed was that no other company's equipment could be physically connected to any of it's lines or equipment. This meant that unless AT&T invented a peripheral it would not be legal to connected to the telephone jack. In 1966 a small Texas company called Carterfone invented a simple device that could go around these regulations.

The Carterfone allowed for a company's radio to be connected to the telephone system. The top portion of the Carterfone consisted of molded plastic. When a radio user needed to use the telephone, the radio operator at the base station placed the receiver in the Carterfone and dialed the number. This allowed the user to call through the radio. AT&T challenged the integrity of the Carterfone on the phone lines and lost the battle in court. In 1975 the FCC passed Part 68 rules.

They were specifications that, if met would allow third party companies to sell and hook up their equipment to the telephone network. This turned the telephone industry upside down and challenged AT&T's monopoly in the telephone business. 3.2. So Gentelmen A' Will Be 65 With more and more electronic communication and the invention of VDTsthe shortcomings of the Baudot code were realized. So in 1966, several telecommunications companies devised a replacement for the Baudot code.

The result was the American Standard Code for Information Interchange, or ASCII. ASCII uses 7 bits of code, allowing it to represent 128 characters without a shift code. The code defined 96 printable characters (A through Z in upper- and lowercase, numbers from 0 to 9, and various punctuation marks) and several control characters such as carriage return, line feed, backspace etc. ASCII also included an error checking mechanism.

An extra bit, called the parity bit, is added to each character. When in even parity mode, the bit would have a value of one if there was an even number of ones and zero if there was an odd number of ones. IBM invented it's own code which used 8 bits of code giving 256 character possibilities. The code was called EBCDIC, for Extended Binary Coded Decimal Interchange Code and was not sequential. The Extended ASCII was designed so that PCs could again attain compatibility with the IBM machines. The other upper 128 characters of the ASCII code include pictures such as lines, hearts and scientific notation.

In 1969 guidelines were set for the construction of serial ports. The RS-232 C standard was established to define away to move data over a communications link. The RS-232 C is commonly used to transmit ASCII code but can also transmit Baudot and EBCDIC data. The connector normally uses a 25 pin D shell connector with a male plug on the DTE (Data Terminal Equipment) and a female plug on the DCE (Data Communications Equipment). 3.3. Hello Joshua, Would You Like To Play A Game... In the 1950's a need arose to connect computer terminals across ordinary telephone lines.

This need was fulfilled by AT&T's Bell 103 modem. A modem (modulator / demodulator ) is used to convert the on-off digital pulses of computer data into on-off analog tones that can be transmitted over a normal telephone circuit. The Bell 103 operated at a speed of 300 bits per second, which at that time was more than ample for the slow printing terminals of the day. The Bell 103 used two pairs of tones to represent the on-off states of the RS-232 C data line. One pair for the modem that is calling and the other pair for the modem answering the call.

The calling modem sends data by switching between 1070 and 1270 hertz, and the answering modem by switching between 2025 and 2225 hertz. The principle on which the Bell 103 operated is still in use today. During the sixties and seventies the c once pt of mainframe networks arose. A mainframe consisted of a very powerful computer to which thousands of terminals we reconnected. The mainframe worked on a time sharing process. Times haring was when many users on terminals could use limited amounts of the host computer's resources, thus letting many parties access the host at the same time.

This type of network, however, was very expensive, and since on time sharing you could only use small amounts of the host's total computing power (CPU), the use of the terminal was slow and sluggish. In the late seventies the personal computer was introduced to the public. A personal computer consisted of a monitor, a keyboard, a CPU (Central Processing Unit), and various other connectors and memory chips. The good things about PCs were that they did not have to share their CPU and that the operating costs of these systems were much less that that of their predecessors. The computers could, with a software package, emulate terminals, and be connected to the mainframe network. Bell laboratories came up with the 212 a unit which operated at the speed of 1200 bits per second.

This unit, however, was very susceptible to noise interference. 3.4. Hey Bell! I Can Hang Myself Up! After the breakup of the AT&T empire that controlled the modem industry, many other companies started to create new designs of modems. Hayes Microcomputer Products, took the lead in the PC modem business. Hayes pioneered the use of microprocessor chips inside the modem itself.

The Hayes Smart modem, introduced in 1981, used a Zilog Z-8 CPU chip to control the modem circuitry and to provide automatic dialing and answering. The Hayes unit could take the phone off the hook, wait for the dial tone, and dial a telephone number all by itself. The Hayes Smart modems sometimes had more powerful CPUs than the computers that they were connected to. The next advancement was the invention of the 2400 bits per second modem. The specifications came from the CCITT, an industry standard setting organization composed of hundreds of companies world wide. The new standard was designated as V. 22 bis and is still in use today.

Other CCITT standards that followed were the V. 32 (9600 bps), the V. 32 bis (14400 bps), the 42 (error control), and the V 42 bis (data compression). Virtually all modems today conform to these standards. The next big computer invention was the fax modem. It uses the on-off data transmission just as a modem but for the purpose of creating a black and white image.

Each on-off signal represents a black or white area on the image. The image is sent as a set of zeros and ones and is then reconstructed on the receiving end. 4. LANs 4.1. I Donn wanna File-Share! Network Operating Systems (OS) are actually a group of programs that give computers and peripherals the ability to accept requests for service across a network and give other computers the ability to correctly use those services.

Servers share their hard disks, attached peripherals such as printers and optical drives, and communication devices. They inspect requests for proper authorization, check for conflicts and errors and then perform the requested service. There is a multitude of different types of servers. File servers a reequipped with large hard drives that are used to share files and information, a swell as whole applications. The file-server software allows shared access to specific segments of the data files under controlled conditions.

Print servers accept print jobs sent by anyone on the network. These servers are equipped with spooling software (saving data to disk until the printer is ready to accept it) that is vital in the situations where many requests can pour in at the same time. Network Operating Systems package requests from the keyboard and from applications in a succession of data envelopes for transmission across the network. For example, Novell's Net Ware will package a directory request in an IPX (Internetwork Packet Exchange) packet, and the LAN adapter will then package the IPX request into an Ethernet frame. In each step information about data and error control data is added to the packet. 4.2.

Eight Go In One Comes Out The Network Interface Card or LAN adapter, is an interface between the computer and the network cabling. Within the computer it is responsible for the movement of data between the RAM (Random Access Memory) and the card itself. Externally it is responsible for the control of the flow of data in and out of the network cabling system. Since typically computers are faster than the network, the LAN adapter must also function as a buffer between the two.

It is also responsible for the change of the form of data from a wide parallel stream coming in eight bits at a time to a narrow stream moving one bit at a time in and out of the network port. To handle these tasks the LAN adapters a reequipped with a microprocessor and 8-64 K of RAM. Some of the cards include sockets for ROM chips called Boot ROM. These chips allow computers without hard drives to boot operating systems from the file server. 4.3. Take Your Turn! Ethernet and Token Ring network adapters use similar systems of electrical signaling over the network cable.

These signals are very similar to the Baudot and Morse codes. A technique called Manchester encoding uses voltage pulses ranging from -15 vs. to +15 vs. in order to transmit the zeros and ones. The network cable has only one drawback, it can only carry signals from one network card at a time. So each LAN architecture needs a media-access control (MAC) scheme in order to make the network cards take turns transmitting into the cable. Ethernet cards listen to the traffic on the cable and transmit only if there isa break in the traffic when the channel is quiet. This technique is called Carrier-Sense Multiple Access With Collision detection (CSMA / CD).

With collision detection, if two cards start transmitting at the same time, they seethe collision, stop, and resume some time later. Token Ring networks use a much more complex process called token passing. Token Ring cards wait for permission in order to transmit into the cable that forms an electrical loop. The cards use their serial numbers in order to find the master interface card. This card starts a message called a token.

When a card with information to send receives the token, it sends the data across the network. After the addressed interface card receives the information and returns it to the originating card, the token is given back to the master to be passed onto the next card. The ARC net network uses a very similar system to that of the Token Ring. Instead of using a token, the master card keeps a table of all active cards and polls each one in turn, giving permission to transmit. 4.4. Tied In A Knot Various types of cabling are used to connect the LAN adapters to the servers. Unshielded twisted pair wires offer rather slow speed, are very inexpensive, are small, and can only span very short distances.

These cables use the RJ-45 connector. Coaxial cable offers fast speed, is rather expensive, has a medium sized diameter, and can span medium distances. Coaxial cable uses BNC connectors. The shielded twisted pair cable offers fast speed, is more expensive than the coaxial cable, has a large diameter, and can only span short distances. These cables use the IBM data connector. The fiber optic cable is the fastest possible type of data transfer, costs astronomical amounts of money, has a tiny diameter, and can span very long distances.

This cable uses the ST fiber optic connector. Wiring hubs are used as central points for the cables from the network interface cards. 5.5. Loves Me, Loves Me Not, Server Based, Peer To Peer... There are two general types of LANs.

The Server-based networks rely on one major server to store data, offer access to, handle the printing and accomplish all the work associated with network management. The Server-based networks have a high start up cost, but offer high security as well as ease of operation. These networks become more economical as more computers are added to the network. In Peer to peer networks the network responsibilities a redivided among many computers.

Some act as file servers, others as print servers, some as CD-ROM servers, tape drive servers, etc. The Startup cost of these networks is much cheaper, but when more computers are added to the network, some of the servers may not be able to handle the extra activity. 5. Links Between LANs 5.1.

She Just Won't Send Sysop! Most networks have very short information transfer ranges. But, in a never shrinking world the need for links between LANs has never been higher. This section will explain the components and information needed to link LANs. When an electric current travels over a long length, it's charge decreases, and it is susceptible to electromagnetic interference. To combat the length problem a component has been devised.

A repeater is a little box that is inserted between a cable. It's primary function is to amplify the weakening pulse and send it on it's way. Bridges are used to analyze the station address of each Ethernet packet and determine the destination of the message. The Routers strip the outer Ethernet packets of a data packet in order to get the data.

This data is sent to other routers in other places of the world and then repackaged by those routers. The removal of the excess data packets by the routers decreases the time required to transfer that data. If networks use the same addressing protocol, bridges can be used to link them, however, if they use different addressing protocols, only routers may be used. During these times MANs (Metropolitan Area Networks) are in use and development today. These use routers that are connected preferably via a fiber optic cable, to create one large network. 5.2. Pluto Calling Earth!

Any networks larger than 1000 m typically rely on telephone digital lines for data transfer. These networks are called Circuit Switched Digital Networks. Circuit Switched Digital Networks utilize a switching matrix at the central office of a telephone company that connects local calls to long distance services. The Telephone companies now offer dial up circuits with signal ingrates of 56, 64, and 384 kilobits per second as well as 1.544 megabits per second. Another type of LAN to LAN connections are packet switching networks.

These are services that a network router calls up on a digital line. They consist of a group of packet switches that are connected via intra switch trunks (usually fiber optic) that relay addressed packets of information between them. Once the packet reaches the destination packet switch, it sends it via another digital connection to the receiving router.