Cable Modem Cloning Hacking Communication Computer Science Essay

Cable Modem Cloning Hacking Communication Computer Science Essay Cable modem is a communication device. This device allows us to connect our PC or laptop to cable Television line and receive data from operator at speed of 1.5 Mpbs or more. Data rate is much more then telephone modems (28.8 or 56 kbps) and 128 kbps given by ISDN (integrated services Digital Network). It is almost equal to Digital Subscriber Line (DSL) telephone service. Cable modem can is combined with set top box. With this combination channels could be watched on TV and internet could be accessed. In most cased cable modem are given by operator. They are not purchased by customers. Cable modem has two connectors. One connecter is connected to cable wall outlet. Other connected to personal computer or laptop. In some cased second connector is connected to set top box for TV channels. Cable modems do conversation between analog signals and digital signals. In other words it performs the task of modulations and demodulation. Although it do modulation and demodulation but it is a very complex device then telephone modem. Cable modem can be individual external device or it can be integrated with a personal computer of set top box. Cable modem is connected to a laptop or personal computer with a standard 10BASE-T Ethernet card. Cable modems are connected to cable operator with a coaxial cable line. Through this coaxial cable cable modem communicates to Cable Modem Termination System located at cable operator office. Cable modems can send or receive signals to Cable Modem Termination System. But cable modem cannot send or receive signal to other cable modems on line. Internet service bandwidth over cable TV line can be 27 Mpbs or more for downstream and 2.5 Mpbs or more on reverse direction. But main factor in speed is cables from operator office to customers homes and actual speed that operator has. If operator is only connected to internet at speed of 1.5 Mpbs in this case data rate at customer end would be near 1.5 Mpbs. Main cable TV providers are using cable modems to bring internet at customer home. Cable modems are used to provide internet service to individuals and business customers. Fast internet connection can be provided by cables modems as well cable modem is a continuous connection. How cable modems work News, entertainment and educational programs are brought by television in millions of homes. Many peoples watch TV through cable TV in short known as CATV. Cable TV operator provides many channels and in very good picture quality. If customer wants cable TV operator can also provide access to internet with high speed. Cable modems are able to give competition to asymmetrical digital subscriber lines (ADSL).it is very interesting to how these both competitors works. In next topic I will try to explain how many TV channels and web sites flow on single coaxial cable. 1.1.1 More Space Coaxial cable used by cable operators is able to carry hundreds of megahertz of signals and each channel that travels on coaxial cable is given 6 megahertz of total electrical space or bandwidth.it means coaxial cable can carry many more channels then we can or wants to watch. Cable TV operator sends signals of various channels each channel gets six MHz slice of coaxial cables available total bandwidth. There could be two types of distribution of cable network. In first one coaxial cable is installed from operators office till customer home. In second type fiber-optic cable is installed from operators office till different areas then from these different locations coaxial cable is installed till customer home. 1.1.2 Streams If a company provides facility of internet then internet service can also use same coaxial cable. This work is done by Cable Modem by putting downstream data (data that is sent from internet to customer) on a six MHz channel. So internet data is just like a TV channel on cable. Same amount of total cable bandwidth is taken by internet downstream data as by a single TV channel. Internet service is a combination of downstream and upstream (data that is sent to internet from customer) .it means upstream also need bandwidth of cable. It takes only 2 MHz slice of space from total available space because it is assumed that customers download more data as they upload. To put these two types of streams (downstream and upstream) cable operator needs only two devices. One device at customer end that is called Cable Modem and other one at operator end called Cable Modem termination system. Computer networking and internet access management takes place in between these two devices. 1.1.3 inside the cable modem As mentioned earlier Cable modem can be external or internal to computer. Some operators provide Cable Modems those are integrated with set top box. Cable Modems can be different from their outer look but all of them have same components inside. Components are given below 1. Demodulator 2. Media Access Control Device 3. Microprocessor 4. Modulator 5. Tuner 1.1.3.1 Tuner The tuner is connected to cable outlet. In some cases tuner is connected to a splitter. Splitter separates channels used for data from channels used for cable TV channels. Tuner collects data from internet channel. Data comes in form of digital modulated signal. Tuner receives this data and passes this data to demodulator. In some Cable Modems tuner contain one other component known as diplexer.it allows tuner to divide frequencies into two sets. First set is used for downstream traffic ad second one is used for upstream traffic. Range of frequencies used for upstream is between 5 to 42 MHz. Range used for downstream frequencies is between 42 to 850 MHz. In some other cases Cable Modem tuner is only used for downstream data and for upstream traffic dial up telephone modem is used. In any case tuner passes data to demodulator. 1.1.3.2 Demodulator Typically Demodulator performs four functions. First function is to convert radio frequency signal in to simple signal that can be processed by analog to digital converter. Radio frequency signal contains information in it by varying amplitude and phase of wave. Second function is performed by analog to digital converter. It takes signal from quadrature amplitude modulation demodulator in turns in series of 1s and 0s. These 1s and 0s are in digital form. Third function is performed by error correction module. It receives information from analog to digital converter and checks this information against a already known standard for possible errors. Main function of this module is to find problems in transmission and to fix them. At this stage data is in groups and these groups are called frames. Frames can be MPEG format. So MPEG synchronizer does its duty to make sure that frames are in order and in line as they were transmitted. 1.1.3.3 Modulator Modulator do reverse job as done by demodulator. It converts digital data into radio frequency signals. So that they can be transmitted on cable. Nature of traffic that flow between user and internet is irregular. Typically this component has they parts 1. Digital to analog converter 2. Quadrature amplitude modulator 3. Error correction information inserter 1.1.3.4 MAC Cable modem has two portions upstream and downstream.MAC is lactated between these two portions. It works as interface between hardware and software portions of different network protocols. Every network device has MAC. Cable modem MAC performs much more complex task then normal MACs. Because it performs much more complex tasks it work load is given to CPU of Cable Modem or to CPU of user personal computer or laptop. 1.1.3.5 Microprocessor Job of Microprocessor depends on for what cable modem is designed. Cable modem can be designed only to provide internet access or it can be designed to be a part of large computer system. If Cable modem is used only for internet access then Microprocessor of Cable mode does most of function of MAC. In case Cable modem is used to be part of large computer system Microprocessor of computer performs most function of MAC. 1.2 Cable Modem Termination System At CMTS end traffic comes from different users in groups. Function of CMTS is take all traffic on a single channel and route this all traffic to internet service provider for connection to internet. on CMTS end service provider could have set up different servers for performing following functions 1. Account and Log management 2. Dynamic Host Configuration Protocol 3. Administration of IP Addresses of users 4. Servers for Data over Cable Service Interface Specifications Downstream data reaches to connected users. It is same like in a Ethernet network. Individual connection has to think that it is for him or not. It is totally different in case of upstream data. Data send from one user to internet is not seen by other users on network. As we know there is not so much bandwidth for upstream. Total available bandwidth is divided into time slices. Time slices are in milliseconds. Time slices are given to different user to send data to internet. Time slices works very well for send short commands, queries and address those are send from users to internet. Typically CMTS allow 1,000 users to connect to internet on a single six MHz channel. Normally single channel have capacity of 30 to 40 megabits per second. So it clear that Cable modem is able to give speed to customers which is much more then dial up modems. Single channel concept could also lead to some issues those customers can face. 2. History of Cable Modems At stating of year 1990 world started to know about stuff that could be possible with digital communication. At that time internet was known just as a tool. Engineers were trying to discover a method to shuttle digital signals between two computers. Same stuff is available for us today in form of internet, email and much more. Technology was invented but not for sending receiving email or surfing web instead it was invented to transmit television channel signals. Channels like ORF, ATV, Plus 4. These channels were transmitted on high capacity wires. At user end a TV box was used to handle these channels and deliver to TV. It was starting of cable TV. To get more TV channels so much efforts are done in last many years. Physical network of coaxial cable and fiber optic cable are installed in many kilometers. These physical networks are installed either underground or some feets over ground using wooden or iron poles. And of course these networks have worked very well to full fill their purpose. Cable TV was born in U.S. but it has rapidly migrated to other continents. Now a day cable TV networks are pumping more than hundred TV channels to homes. One of leading cable operator in Vienna is delivering 132 TV programs including 23 HD programs.[upc.at] Later on inventors wanted to use cable TV network for other purposes. That was time when computer network started to stand on its feet. Means computer networks were started to build in organizations and in educational institutions. Some organization had proved that two or more computer connected to each other can do amazing things. Data or information that was only in individuals computer can be shared between others also can be enhanced by other users. Books were made free from library and published so that all can see. To make it possible that two computers can talk to each other so much was done by inventors. Communication protocols were developed. Languages to develop protocol were invented. Standards of communication were developed. Names were given to standards such as Novell and Ethernet. This all was rising of local area network. At this time engineers and investors started to think about increase boundaries of this information communication network. They wanted to share that was going on in computer of an organization at a wider geographical area. They were thinking to share information of a computer with another computer located at other end of same city. They wanted to transform a local area network in metropolitan area network. All these idea needed transmission medium installed within a city.so that information or data can be send or received on wide spread transmission medium. One solution was to transmit information on copper wires of telephone networks. But copper wires used in telephone network were not able to provide speed that was provided by LANs. Fast speed transmission was provided by advance version of telephone system called TI ,T3 or ISDN. But these solutions of high speed information transmission were very expensive. Luckily same types of cables used for local area networks named coaxial cables were already been installed in all over the city by cable operators to provide TV channels to customers. With some more engineering this cable can be used as very power full media for information transmission. A electronic device was demanded by many organizations and educational institutes. Private and government organizations, schools, hospitals, were looking for a way to send and receive text file, images, across town. Some of them rented expensive lease lines from telephone companies and some of them created their own pipes to transfer data or information across town. But peoples were not aware that there was a medium that was able to data with high speed as well it capable to transfer data on very high speed. This medium was not far away it was just outside in street. Cable TV operators had built a network across city. It was supposed that it was only for transmission of TV channels. But it was very much suited for information as well. It took many years to discover that cable TV network can be used for transfer data across city. LANcity discovered technology that became mile stone for so called Cable Modem. In other words It was just a box that was attached to cable television that was able to transfer coaxial cable a medium to transfer TV channels to medium to transfer data. As many people wished about its speed it was outstanding. It was a big coincidence that almost on same time an another force that attracted attention of peoples was introduced. Its name was internet. Typically cable modem technology was developed so that peoples can share files between offices those were located across city. Combination of internet and cable modem technology connected households with high speed. As it happens to all most all technologies same was with cable modems that it took many years to come in shape that is available for us today. Modems those were made in its early days were big metal boxes and were very heavy to pick up. In early years size of cable modem was almost same as rack of our cupboard. Main idea was they were not made for homes or residential use. They were made for schools, offices and for educational institutions. Not at all for homes. In those days internet was just a linking of government offices and educational institutions. Speed of internet was very slow over dialup phone lines. Computer monitors were also black and white. Operating system of systems was also DOS. It was not windows. There was no world wide web available. Internet was a toy for peoples who were interested in technology or of peoples who were interested to explore new technology. Internet has nothing for everyone. Those days were starting days of internet. 2.1 Development of Cables Nothing would be wrong to say that in those days personal computer were babies. But cable television networks were in their 30s. There was more than one cable operator in same area. Most of cable operators were offering more than 50 channels. Some of cable operators were providing service with basic TV channels on the other hand some were providing TV channels with basic channels as well premium TV channels. Architecture of cable network was totally different as it is today. In these days fiber optics is being used and it has increased speed of transmission lines. Noise that was introduced by amplifiers has reduced. Combination of fiber optics and coaxial cable are doing a under full job. But at starting some peoples believed this combination will never work. With time there are many changes have taken place in technology but still one technology is still same. Pictures of TV channels are taken from air as they are broadcast from satellites. At operator end TV channels are captured from air then they are passed through a so called mixer it place them on a single cable on different frequency bands. Now they are ready to travel on coaxial cable. But after traveling some miles they should be amplified. But here is a problem amplifiers also amplify or boost noise as well. This noise introduced by amplifiers make the picture worse. In 1980 cable networks were like branches of tree. It means from main office of cable operator thick cables were going to all four directions. After a particular distance in each direct less thick cable were used till different branches of cable operator. Thin cables were used till customer home from branch office. This was architecture of cable TV networks. It was perfect to transmit TV channels on it. There were many reasons that this network was not suitable for data communication. In a sense it was one way network. As we mentioned there where many reasons one of them was TV signals were sent only in one direct means from cable operator office to customer homes. To send signal in other direction means from customer to home cable TV operator was not possible. This network could work with data transmission if there would a method that customer or users can also send data to operator office and from operator office to destination of data it could in same city or in same country or could in other country for example world wide web. Till 1980 most of cable operator had not started to make path for customer to send data toward operator office. It was called upstream. Downstream was already possible as channels were sending from operator office to customer homes. Operator were not thinking about it one reason behind was there was not enough demand of it. So without any demand operators were not ready to invest their money in this technology to make path from customer home toward operator office. But it has not affected developers in any way. They continued their inventions in this technology that could make coaxial cable more useable. It was their main interest to make this cable TV network useable for information transmission. Information can travel in both directions not only in one direction. There was a requirement of an electronic device that could combination all stuff of data communication with cables used for TV channels. This electronic device should combine whole architecture of cable network with data c ommunications. So lot of efforts was required to transform cable TV network in to data network. Cable modems those were invented in 1980. Typically were not addressed a Cable Modems. They were so called radio frequency modems. They were not made for home users. They were used only by engineers. They were cable able to perform of modulation and demodulation. Information transmitted by them was 1s and 0s. It was not video means were not TV channels. Information was transmitted in coaxial cable within same boundaries of frequencies. Cable modems those were invented in their early days were used for different purposes. As cable networks owned by cable operators. Only some of cable operator agreed to negotiate within a city to link different buildings. These building can be educational institutions, police stations. These building can send or receive messages to each other by using existing cable network. At that time cable modems were only capable to deliver a speed of 19.2 kbps. But it was still faster than speed given by telephone modems that was around 1200 bps. Interesting thing is after 30 years we can enjoy speed of Mpbs. Cable Modems made in starting days were not so complex as modems those we have now a day. They were very less sophisticated as compared to todays modems. Let us suppose there are two computers in two different buildings attached to each other with cable modems over cable network coaxial cable. A message is sent from first computer. Computer handovers message to modem. Modem hand over this message to destination computer on downstream frequency without any processing. Basically it is broadcasted to all computers over network. Destination computer gets message through cable modem. As well all other computers on network get the message. But they cannot see messages because address of computer does not correlate with messages destination address. Transmission was based on a simple logic. One computer wants to send message to other computer so called Mr. ABC it will send message to all assuming that all are Mr. ABC but only Mr. ABC will receive message because other computers are not Mr. ABC. Till this time cable TV operators started to recognize capabilities of their wide spread coaxial cable network. They started to use cable modem for their own communications. Some of main branch offices were not near to telephone lines. Cable operators had covered remote areas as well mountains. But telephone lines were not available on these places. So cable operators thought they will use their own cables for communication on these remote areas rather than paying to telephone companies for installing telephones line in those remote areas. They have one choice to use cable modem on both end of their cable network. It was cable modem that allowed to cable engineers to set up internet PBX using cable network. Till now a day in some places those modems are used for telephone service. This was the time when data was available with phone and TV channels were already available. After some time developers of cable modem discovered a modem that was able to provide speed of 1.544 Mpbs speed over cable network. They took advantage of it started service of leased line known as T1 for businesses. T1 lines needed bandwidth on cable as equal to one TV channel. Luckily some of cable operator have free channel available. Those operators do not have vacant channels thought to replace some of channels so that give service of private data network to their customers. Research done on history of cable modem shows that it took 15 years and then cable modem became main stream. Main three problems were faced in long path of development of cable modems. First problem was transmission of traffic in both directions. It was possible with cable network to transmit information from operator office to customer homes but transmission of information from customers toward operator office was not possible. Till late 1990 cable operstor were capable to transmit information in both directions. Second problem was with business model. As already mentioned data transmission was made possible by cable modems but it was only use full for organizations or educational institutions like universities or schools. It was not available for home users. At that time it only looked as a business have only cost but no profit. Third problem was modem itself. In most cased it was built by different companies according to their requirement for single application. It was property of supplier. Modems from different suppliers were not able to communication with each other means no interoperable. In simple words it means cable companies were investing in such a technology that have no standard and it can be overcome anytime or other technology. Answer of these questions was given by DOCSIS. DOCSIS stands for Data Over Cable Service Interface Specification. It defined that cable modems are for cable industry. They are not for researchers or developers. DOCSIS helped for development of cable modems in direction of economy and volume. 2.1.1 DOCSIS Till mid of 1990, three problems those occurred for acceptance of cable modem were being solved. Upstream path from customer homes to operator office were being added to coaxial cable network. News from Cambridge and Castro valley encouraged cable operators to know more about cable modem technology.it also helped them to explore business model. Use of cable modem in telecommunications business was also favorable for cable modem development. Internet was rising day by day. Cable TV and telephone companies had tuff competitions. Companies were trying to get each other customers. Companies were able to provide TV channel service as well telephone service. At this time there was a new business for these companies it was internet service for customers at high speed. But still there was one barrier for companies. It was device interoperability. There was a lack of standard in modem industry. It was not possible to get interoperability without standards. Cable modem market could not be emerged without standards. Cable modem developers had a feeling of fear without standards to manufacture a big volume of cable modems. Because of production of less quantity price was high and it directly affected customers. It was well understandable and as well expected that electronic devices should work no matter of their location. In other words if we buy a modem from Vienna it should also work in Graz without any trouble. Because lack of interoperability if a modem purchased from Vienna and then customer moves to some other city where cable service is provided by another operator and this modem will not work there. I would like to give a sweet example here may be you have experienced of different power outlet in different countries. It is obvious no retailer would like to sell such products those give trouble to face angry customers. Interoperability was main issue at that time and it depended on technologies those developers had chosen those days. Some manufactures were selling asymmetrical modems. It means information moved faster from operator office toward customer home as it moved from customer home to operator office. Reason behind was a click to get a page from web needed less bandwidth as required by webpage itself. Some other manufactures had different ideas they were producing symmetrical cable modems as broadband user were increasing. Their idea was that home user would need more upstream speed to send information toward word wide web. Cable modem suppliers were growing with same speed as high speed internet grew. Every supplier was bit different from other. Some big names of electronic devices like Cisco Systems. HP, IBM, Motorola jumped in industry of cable modems. There were also small manufactures in cable modem industry. When big companies entered in market, small manufactures where afraid because big manufactures can produce modem like cookies. They could offer price very much attractive for customers. Still small suppliers tried to move on as quickly it was possible for them. This all was happening in non-standardized environment. In 1995 only one mantra was on everyones tongue and it was standards for their technology. When it did not worked as it was in mind of big manufactures like HP and IBM they step back from scene. In those days standards for cable industry were only concern. Because it was related to electronic devices those were used in homes. Cable operators has only fitted cables and modems in their offices and at customers end only from short listed providers of cable and modems. It made possible coexistence of both suppliers and cable service provider. Main suppliers have full control over selecting pricing and features of cable modems. It totally up to them to decide when older version would be discontinued and newer version would be introduced to market. At end of year 1995 some of cable modem engineers started to does private meetings about a chip call MIcroUnity. Same like other chips it was also reprogrammable. They decided to use this chip in cable modems as well in set top boxes and later on if required it can be updated with software. It was an alternative for if new services are introduced then cable operator should change box. It have double cost first cost was of box and second one was to send one to install new box. At that time there were two main players in cable technologies. Both of them thought enough about this MicroUnity chip that was reprogrammable then they decided to invest in this chip. They formed a private company that would lead for use of chip in cable hardware. This company was called Cable Multimedia Cable Network System in short MCNS. Motivation behind MCNS was to attract more hardware suppliers in cable industry. So that pricing can be bring down and to introduce more features. Only reason to do so was to bring interoperability among cable device producers. only solution of Interoperability between devices from different operators was to develop standards. Later on MCNS became DOCSIS Data Over Cable Service Interface Specification. It is pronounced as dock sis. In year 1996 Developers put it on fast track and they decided to complete specification written till end of year 1996. At mid of 1997 specification were being completed. Lab test can be performed on specifications. Intension of these tests was give sample to vendor and to test specifications. It was September month of year 1997 when a detailed certification program was released. Responsibility was given to a board to review certification. It was also responsibility of board to approve products if they meet specifications. An agreement was made that Cable Modem Termination Systems would be check to qualify specifications and vendors would be tested to give me certificate. As certificate they will get DOCSIS certificate sticker. 2.1.2 Certification Two years and to clear three certification test were necessary for any vendor to get DOCSIS certificate. On 20 march 1999 cisco system got qualification for their CMTS. First certificate for modem was issued to Toshiba and Thomson companies. After some months modems from 3Com and Arris passed certification. In coming some months many products get DOCSIS certificate. Now a day in many country cable companies lead DSL reson behind is speedy efforts done to make DOCSIS standard. Meanwhile stories of success of cable modem and high speed internet were coming continuously. Peoples who adopted cable modem in its early days were satisfied from their decision. Cable modem industry was afraid if they would be able to full fill high demand. Because of fast progress of cable modem technicians were also in high demand. Two persons were need first one to handle cable modem and second one for handling personal computer. At end of year 2002 in North America there were around 16 million customers. Cost of cable modem was also reduced from 1990 since 2001. In year 2001 cost of a cable modem was around $120 while in year 1990 it was $500. There is no dispute either on success stories of cable or on its high demand. Investment banker signed agreements with leading cable companies to build backbone network and content infrastructure to support high speed cable modem technology. Development of DOCSIS is still continuing. Now a day Circuit of cable modem is available on personal computer cards. In Europe cable modem circuit is available in set top box. With the time successor of DOCSIS were released. Quality of service has in improved in successors of DOCSIS. They are able to support coming generation of high speed internet service. DOCSIS has also played very important role in development of internet protocols. Latest version of DOCSIS is DOCSIS 3.0 that is able to provide download speed of 1.5 Gbit/s and upload speed of 1150 Mbit/s. Trial version of DOCSIS 3.0 was announced o

My English family Essay

he high competitive in the current circumstances brings a significant changes to people’s lifestyle. People’s lifestyle gradually becomes a workaholic’s lifestyle. The effect of workaholic’s lifestyle has advantages and disadvantages for several reasons as per the below. A workaholic’s lifestyle results to the problem of time management. A hard working people have not their personal time, because they spent most of time doing their job. They usually start job in the early morning and do it until night. Moreover, this problem causes a numerous influence in the family man. The relationship in their family will be quite distant so far, because the parents pay more attention to their job than take care their children. On the other hand, it brings about the enormous negative effects in term of health. There are many disease that are cause by a workaholic‘s lifestyle, including gastro-esophageal reflux disease, gastritis disease, obesity, and back pain. Some of these are chronic disease, and it spends long time to cure. However, most people lack of interest in their health. Even they find out that they have disease, they ignore to go to see a doctor. It leads to negative consequential outcomes in the future. However, the advantages of workaholic’s persons are that they will get a good performance, and get promoted in accordingly. In the eye of their supervisor, they are strenuous persons, and it shows that they attach significance to the job. Thus, they become the first priority persons who are considered to get any benefits, such as promotion and salary adjustment. To sum up, it is evident that a workaholic’s lifestyle has more disadvantage effects, especially the health. I think that it is not worth to sacrificing your health for your career. A workaholic‘s lifestyle makes you succeed in your career path, but it makes you fail in your personal‘s life. TOEFL listening lectures: Which designer did not work at the Bauhaus? Groffy You can meet me at english-test.net Joined: 15 Mar 2010 Posts: 77 The effects of workaholics’ lifestyle #2 (permalink) Sun Jun 20, 2010 7:48 am The effects of workaholics’ lifestyle . A workaholic’s lifestyle /results to/STEMS FROM/ the problem of time management. A h Hard working people DO NOT have not their personal time, because they spenD most of THEIR time doing their job. They usually start job WORKING in the early morning and /do it/WORK/ until night. Moreover, this problem causes a HAS numerous influence CONSEQUENCES FOR the family man. The relationshipS WITHin their family will be quite distant so far, because the parents pay more attention to their job than IN takING care OF their children. On the other hand, it ALSO brings about the enormous negative effects in termS of health. There are many diseaseS WHICH are causeD by a workaholic‘s lifestyle, including gastro-oesophageal reflux disease, gastritis disease, obesity, and back pain. Some of these are chronic diseaseS, and it spends THEY TAKE A long time to cure. However, most people lack of interest in their health. Even WHEN they find out that they have A disease, they ignore to go GOING to see a doctor. It leads to negative consequential outcomes in the future. However, the advantages of workaholic’s persons are that they will GIVE a good performance, and get promoted in accordingly. In the eye of their supervisor, they are strenuous persons, and it shows that they attach significance to the job. Thus, they become the first priority persons who are considered to get any benefits, such as promotion and salary adjustment. To sum up, it is evident that a workaholic’s lifestyle has more disadvantage DAMAGING effects, especially ON theIR health. I think that it is not worth to sacrificing your health for your career. A workaholic‘s lifestyle makes you succeed in your career path, but it makes CAUSES you TO fail in your personal life. :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: Good morning Groffy. this is pretty good my friend, but you will only improve further by doing more reading of English publications, not grammar books. Kitos. 8/10 _________________ Keep it simple †¦ Keep it interesting. Kitosdad Language Coach Joined: 04 Mar 2009 Posts: 13497 Location: ESSEN, Germany, (but English.) TOEFL Prep Tests — Increase your Score with 120 free TOEFL Vocabulary TestsTOEFL Study Guide Guaranteed to Raise TOEFL scores without weeks and months of studying — View the Free ReportTOEFL Test Package — Learn the most difficult TOEFL vocabulary words you need to pass the TOEFL with these vocabulary tests and this unique flash card systemSign up for FREE and explore English! 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Art and Historical Analysis of an Ancient Bell Krater Essay

In the Ancient Gallery in the Chazen Museum of Art, there is a bell krater from Attica, Greece that was made around 460-450 BCE. It is a ceramic vase that is in excellent condition with the exception of a few chips on the red-figure decoration. The Bell Krater (figure 1, figure 2) stands under two feet tall and is just over one foot in width. Overall, the scene and design style on this krater is mostly consistent throughout the entire body of the vase, but there are a few formal elements that separate the scenes on Side A (figure 1) from Side B (figure 2). The three main elements that will be discussed include technique, space, and line, as they all have a significant impact on how the viewer sees the artwork. While the Bell Krater is cohesive as a whole, the different use of formal elements on each side would have created individual impressions for the viewer in Ancient Greece as they surveyed both viewpoints while dining in their home. In the Bell Krater, the technique differs so greatly between Side A and Side B, that it is reasonable to suggest that each was painted by a different artist. The personal ways in which each artist handled the red-figure decoration establishes their separate techniques and thus gives each scene completely different emotions for the viewer to pick up on. On Side A, the red-figure decoration shows Theseus pursuing Helen, and uses strong yet intricate lines, giving the scene a sense of strength and intensity. The heavy strokes add definition and purpose to the figures’ actions, but the artist still manages to use plenty of detail, especially in the figures’ garments and faces. This detail would have allowed the scene to come to life for viewers in Ancient Greece by giving off a sense of motion from the intricate pleats of the clothing, and also emotion due to the different facial expressions of the figures. Side B, which portrays a maid bringing news to the queen, also uses strong lines, but with much less detail and fluidity. The intensity of these motions subside the resilience of the actions of the characters and create an overall more static scene due to the stiff lines and minor use of details in the scene within the garments and the figures’ faces. On account of there being less elaboration, viewers in Ancient Greece would have seen the picture as being much more static as well as containing less emotion, but it would also seem less intense and calmer than Side A. In the Bell Krater, the artists’ treatment of space helps to depict images of a three-dimensional world onto a two-dimensional surface. This would have helped the viewer visualize the story that was being told in the scenes more readily by using body positioning, gestures, and stance to form space between characters and furthermore helped give different impressions to the viewers due to the differences in space on each side of the vase. On Side A, the viewer would have gotten the impression of forcefulness coming from Theseus towards Helen. This is due to the positioning of their bodies and their stance as Theseus reaches out to grab Helen, as well as how close the figures are placed together. On the contrary, with Side B the viewer would have had an impression that the characters are calmer but also less familiar with each other. This is because of the figures’ more relaxed postures, the erect stances of the maid and queen, and the fact that they stand at a further distance to each other than Theseus and Helen on Side A. The contrasting depictions of space on each side of the Bell Krater, one with a seeming forcefulness while the other maintaining a calmer demeanor, offers separate moods for the viewer to process. This allows the vase to have a certain depth of personality that adds to the stories the scenes are portraying that could not be accomplished with a single scene. In the Bell Krater, the artists’ treatment of line helps to create different paths of movement within each scene. The artists used smaller visible lines in the drawings to make a larger invisible line of sight which would have aided viewers in perceiving the types of motions that would have occurred in the stories being portrayed. Although the Bell Krater is bound together by the same patterns that surround the two scenes, there are some distinct differences between the two sides. For example, Side A depicts a linear point of view and horizontal focus through all three figures’ outstretched arms and Theseus’ spear which is held horizontally in the image. Alternatively, Side B has more vertical points of focus due to the figures’ upright stature, the positioning of their arms, which are bent at the elbows, and the staff and columns shown in the scene. The difference in types of lines on each side of the Bell Krater help create separate emotions for each scene. For someone observing this vase in Ancient Greece while dining, they would feel the sense of urgency being portrayed as well as a more rushed movement on Side A due to the horizontal lines. On Side B, the diners would notice slower movement being depicted as well as a sense of peacefulness due to the more vertical lines being used which was not present on Side A. In Ancient Greece, vase painting allowed for each artist to have different techniques and styles. In the case of the Bell Krater, it is possible that each side was painted by a different artist since the technique varies so greatly between the two. In red-figure painting, the painter outlined the figures and then colored the background black. The red clay of the vase was reserved for the figures themselves and a soft brush was used to draw the interior details. This type of painting allowed the artist to alter the thickness of lines and detailing of figures as they saw fit. As a result, there was variance in each artist’s techniques which created individual impressions of their work for the viewer to observe. During the Classical Artistic Period of Ancient Greece, kraters were used to mix wine and water during meals. When the artists created the Bell Krater, they would have taken the space of the object into consideration while sculpting and painting it. Space is not just when painters depict an image, but also the space that the object occupies. In this case, they knew it would be used while dining at a table setting inside a home. For this reason, the Bell Krater has a scene on each side of it so that diners can view the artwork from whichever side of the table they happen to be sitting at. The use of space both two-dimensionally and three-dimensionally for the Bell Krater would have allowed for differing impressions for the viewer while dining. In Ancient Greece, many of the scenes on vases were of mythological stories that were well known by the majority of the population. The Bell Krater is no exception to this, and depicts two stories on Side A and Side B that viewers in Ancient Greece would have been able to recognize easily with the help of line, which helps define the artwork’s shape and form. On Side A, the scene portrays Theseus pursuing Helen, daughter of Zeus. The story goes that Theseus, who was in search for a suitable wife, was persuaded by his friend Peirithous to marry a daughter of Zeus. Theseus decided to abduct Helen, a princess of Sparta, with the help of his friend. In order to return the favor to Peirithous, Theseus left Helen with his mother, Aethra, before he went to help capture Persephone from the Underworld for Peirithous. The two were tricked and captured by Hades though, and were unable to return to the living. The horizontal lines that are used on Side A help create the sense of urgency that is needed in order to correctly depict the scene from the story of Theseus abducting Helen. On Side B, the scene shows a maid bringing news to the queen. The origin of this scene is less obvious than Side A, but one possibility is that the maid and queen are Aethra and Helen. This is feasible because according to the story of Theseus and Helen, after Theseus was trapped in the Underworld, Helen’s brothers came to rescue her and in turn also made Aethra into her slave. The vertical lines and focus of Side B make this story seem even more likely because they help in giving the sense that the figures are less connected and less comfortable with each other than the figures on Side A. The scenes on the Bell Krater work together to create one cohesive vase, but the contrasting use of the formal elements on each side would have created distinctly different reactions from the viewer in Ancient Greece as they observed both sides while dining in their home. The technique, space, and line of the Bell Krater differ on each side of the vase and would have helped give the viewer a different impression of each scene due to these contrasting uses of the formal elements. Additionally, the technique behind red-figure painting, the uses for kraters, and the stories being told on the Bell Krater would all have helped give the viewer in Ancient Greece completely different feelings towards each side of the krater.

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