Delta Modulation And Demodulation Computer Science Essay

Delta Modulation And Demodulation Computer Science Essay A modem to improve communication system performance that uses multiple modulation scheme comprising modulation technique and encoder combinations. As communication system performance and objective change, different modulation schemes may be selected. Modulation schemes may also be selected upon the communication channel scattering function estimate and the modem estimates the channel scattering function from measurements of the channels frequency (Doppler) and time (multipath) spreading characteristics. An Adaptive sigma delta modulation and demodulation technique, wherein a quantizer step size is adapted based on estimates of an input signal to the quantizer, rather than on estimates of an input signal to the modulator. A technique for digital conferencing of voice signals in systems using adaptive delta modulation (ADM) with an idle pattern of alternating 1s and 0s has been described. Based on majority logic, it permits distortion-free reception of voice of a single active subscriber by all the other subscribers in the conference. Distortion exists when more than one subscriber is active and the extent of this distortion depends upon the type of ADM algorithm that has been used. An LSI oriented system based on time sharing of a common circuit by a number of channels has been implemented and tested. This technique, with only minor changes in circuitry, handles ADM channels that have idle patterns different from alternating single 1s and 0s. This method used for noise reduction. The modulator factor does not require a large amount of data to be represented. Representation is based upon a frequency domain function having particular characteristics. A preferred embodiment of the invention incorporates transform or sub band filtered signals which are transmitted as a modulated analog representation of a local region of a video signal. The modulation factor reflects the particular characteristic. Side information specifies the modulation factor 1.2. Aim: Digital techniques to wirelessly communicate voice information. Wireless environments are inherently noisy, so the voice coding scheme chosen for such an application must be robust in the presence of bit errors. Pulse Coded Modulation (PCM) and its derivatives are commonly used in wireless consumer products for their compromise between voice quality and implementation cost. Adaptive Delta Modulation (ADM) is another voice coding scheme, a mature technique that should be considered for these applications because of its bit error robustness and its low implementation cost. Bandpass modulation techniques encode information as the amplitude, fre ­quency, phase, or phase and amplitude of a sinusoidal carrier. These band ­pass modulation schemes are known by their acronyms ASK (amplitude shift keying), FSK (frequency shift keying), PSK (phase shift keying), and QAM (qua ­ternary amplitude modulation), where keying or modulation is used to indicate that a carrier signal is modified in some manner. The carrier is a sinusoidal signal that is initially devoid of any information. The purpose of the carrier is to translate essentially a baseband information signal to a frequency and wavelength that can be sent with a guided or propagating electro ­magnetic (EM) wave. Bandpass ASK is similar to baseband pulse amplitude modulation (PAM) in Chapter 2, Baseband Modulation and Demodulation, but FSK, PSK, and DM are new non-linear modulation techniques. ASK, FSK, and PSK can be readily extended to multiple level (M-ary) signaling and demodulated coherently or non-coherently. The optimum receiver for bandpass symmetrical or asymmetrical sig ­nals is the correlation receiver, which is developed for baseband signals in Chapter 2. Coherent demodulation uses a reference signal with the same frequency and phase as the received signal. No coherent demodulation of bandpass signaling may use differential encoding of the information to derive the reference signal in the correlation receiver. The observed bit error rate (BER) for a single, in a MATLAB simulation for several bandpass digital communication systems with coherent and non coherent correlation receivers is compared to the theoretical probability of bit error (Pb). Digital communication systems are subject to performance degrada ­tions with additive white Gaussian noise (AWGN). MATLAB simulations of bandpass communication systems are used to investigate the effect upon BER of the performance of the correlation receiver, the reduction in BER with Gray-coding of M-ary data, and binary and quaternary differential signaling. MATLAB simulations of such bandpass digital communication systems and investigations of their characteristics and performance are provided here. These simulations confirm the theoretical expectation for Pb and are the starting point for the what-ifs of bandpass digital communication system design. Finally, the constellation plot depicts the demodulated in-phase and quadra ­ture signals of complex modulation schemes in the presence of AWGN. The opti ­mum decision regions are shown, and the observed BER performance of the bandpass digital communication system can be qualitatively assessed. Delta Modulation: Delta modulation is also abbreviated as DM or Ά-modulation. It is a technique of conversion from an analog-to-digital and digital-to-analog signal. If we want to transmit the voice we use this technique. In this technique we do not give that much of importance to the quality of the voice. DM is nothing but the simplest form of differential pulse-code modulation (DPCM). But there is some difference between these two techniques. In DPCM technique the successive samples are encoded into streams of n-bit data. But in delta modulation, the transmitted data is reduced to a 1-bit data stream. Main features: * The analog signal is similar as a series of segments. * To find the increase or decrease in relative amplitude, we should compare each and every segment of the approximated signal with the original analog wave. * By this comparison of original and approximated analog waves we can determine the successive bits for establishing. * only the change of information is sent, that is, only an increase or decrease of the signal amplitude from the previous sample is sent whereas a no-change condition causes the modulated signal to remain at the same 0 or 1 state of the previous sample. By using oversampling techniques in delta modulation we can get large high signal-to-noise ratio. That means the analog signal is sampled at multiple higher than the Nyquist rate. Principle In delta modulation, it quantizes the difference between the current and the previous step rather than the absolute value quantization of the input analog waveform, which is shown in fig 1. Fig. 1 Block diagram of a Ά-modulator/demodulator The quantizer of the delta modulator converts the difference between the input signal and the average of the previous steps. The quantizer is measured by a comparator with reference to 0 (in 2- level quantizer), and its output is either 1 or 0. 1 means input signal is positive and 0 means negative. It is also called as a bit-quantizer because it quantizes only one bit at a time. The output of the demodulator rises or falls because it is nothing but an Integrator circuit. If 1 received means the output raises and if 0 received means output falls. The integrator internally has a low-pass filter it self. Transfer Characteristics A signum function is followed by the delta modulator for the transfer characteristics. It quantizes only levels of two number and also for at a time only one-bit. Output signal power In delta modulation amplitude it is does not matter that there is no objection on the amplitude of the signal waveform, due to there is any fixed number of levels. In addition to, there is no limitation on the slope of the signal waveform in delta modulation. We can observe whether a slope is overload if so it can be avoided. However, in transmitted signal there is no limit to change. The signal waveform changes gradually. Bit-rate The interference is due to possibility of in either DM or PCM is due to limited bandwidth in communication channel. Because of the above reason DM and PCM operates at same bit-rate. Noise in Communication Systems Noise is probably the only topic in electronics and telecommunications with which every-one must be familiar, no matter what his or her specialization. Electrical disturbances interfere with signals, producing noise. It is ever present and limits the performance of most systems. Measuring it is very contentious almost everybody has a different method of quantifying noise and its effects. Noise may be defined, in electrical terms, as any unwanted introduction of energy tending to interfere with the proper reception and reproduction of transmitted signals. Many disturbances of an electrical nature produce noise in receivers, modifying the signal in an unwanted manner. In radio receivers, noise may produce hiss in the loudspeaker output. In television receivers snow, or confetti (colored snow) becomes superimposed on the picture. In pulse communications systems, noise may produce unwanted pulses or perhaps cancel out the wanted ones. It may cause serious mathematical errors. Noise can l imit the range of systems, for a given transmitted power. It affects the sensitivity of receivers, by placing a limit on the weakest signals that can be amplified. It may sometimes even force a reduction in the bandwidth of a system. Noise is unwanted electrical or electromagnetic energy that degrades the quality of signals and data. Noise occurs in digital and analog systems, and can affect files and communications of all types, including text, programs, images, audio, and telemetry. In a hard-wired circuit such as a telephone-line-based Internet hookup, external noise is picked up from appliances in the vicinity, from electrical transformers, from the atmosphere, and even from outer space. Normally this noise is of little or no consequence. However, during severe thunderstorms, or in locations were many electrical appliances are in use, external noise can affect communications. In an Internet hookup it slows down the data transfer rate, because the system must adjust its speed to match conditions on the line. In a voice telephone conversation, noise rarely sounds like anything other than a faint hissing or rushing. Noise is a more significant problem in wireless systems than in hard-wired systems. In general, noise originating from outside the system is inversely proportional to the frequency, and directly proportional to the wavelength. At a low frequency such as 300 kHz, atmospheric and electrical noise are much more severe than at a high frequency like 300 MHz. Noise generated inside wireless receivers, known as internal noise, is less dependent on frequency. Engineers are more concerned about internal noise at high frequencies than at low frequencies, because the less external noise there is, the more significant the internal noise becomes. Communications engineers are constantly striving to develop better ways to deal with noise. The traditional method has been to minimize the signal bandwidth to the greatest possible extent. The less spectrum space a signal occupies, the less noise is passed through the receiving circuitry. However, reducing the bandwidth limits the maximum speed of the data that can be delivered. Another, more recently developed scheme for minimizing the effects of noise is called digital signal processing (DSP). Using fiber optics, a technology far less susceptible to noise, is another approach. Sources of Noise As with all geophysical methods, a variety of noises can contaminate our seismic observations. Because we control the source of the seismic energy, we can control some types of noise. For example, if the noise is random in occurrence, such as some of the types of noise described below, we may be able to minimize its affect on our seismic observations by recording repeated sources all at the same location and averaging the result. Weve already seen the power of averaging in reducing noise in the other geophysical techniques we have looked at. Beware, however, that averaging only works if the noise is random. If it is systematic in some fashion, no amount of averaging will remove it. The noises that plague seismic observations can be lumped into three categories depending on their source.  · Uncontrolled Ground Motion This is the most obvious type of noise. Anything that causes the ground to move, other than your source, will generate noise. As you would expect, there could be a wid e variety of sources for this type of noise. These would include traffic traveling down a road, running engines and equipment, and people walking. Other sources that you might not consider include wind, aircraft, and thunder. Wind produces noise in a couple of ways but of concern here is its affect on vegetation. If you are surveying near trees, wind causes the branches of the trees to move, and this movement is transmitted through the trees and into the ground via the trees roots. Aircraft and thunder produce noise by the coupling of ground motion to the sound that we hear produced by each. Adaptive Delta Modulation (ADM) Another type of DM is Adaptive Delta Modulation (ADM). In which the step-size isnt fixed. The step-size becomes progressively larger when slope overload occurs. When quantization error is increasing with expensive the slope error is also reduced by ADM. By using a low pass filter this should be reduced. The basic delta modulator was studied in the experiment entitled Delta modulation. It is implemented by the arrangement shown in block diagram form in Figure Figure: Basic Delta Modulation A large step size was required when sampling those parts of the input waveform of steep slope. But a large step size worsened the granularity of the sampled signal when the waveform being sampled was changing slowly. A small step size is preferred in regions where the message has a small slope. This suggests the need for a controllable step size the control being sensitive to the slope of the sampled signal. This can be implemented by an arrangement such as is illustrated in Figure Fig: An Adaptive Delta Modulator The gain of the amplifier is adjusted in response to a control voltage from the SAMPLER, which signals the onset of slope overload. The step size is proportional to the amplifier gain. This was observed in an earlier experiment. Slope overload is indicated by a succession of output pulses of the same sign. The TIMS SAMPLER monitors the delta modulated signal, and signals when there is no change of polarity over 3 or more successive samples. The actual ADAPTIVE CONTROL signal is +2 volt under normal conditions, and rises to +4 volt when slope overload is detected. The gain of the amplifier, and hence the step size, is made proportional to this Control voltage. Provided the slope overload was only moderate the approximation will catch up with the wave being sampled. The gain will then return to normal until the sampler again falls behind. Comparison of PCM and DM When coming to comparison of Signal-to-noise ratio DM has larger value than signal-to-noise ratio of PCM. Also for an ADM signal-to-noise ratio when compared to Signal-to-noise ratio of companded PCM. Complex coders and decoders are required for powerful PCM. If to increase the resolution we require a large number of bits per sample. There are no memories in Standard PCM systems each sample value is separately encoded into a series of binary digits. An alternative, which overcomes some limitations of PCM, is to use past information in the encoding process. Delta modulation is the one way of doing to perform source coding. The signal is first quantized into discrete levels. For quantization process the step size between adjacent samples should be kept constant. From one level to an adjacent one the signal makes a transition of transmission. After the quantization operation is done, sending a zero for a negative transition and a one for a positive transition the signal transmission is achieved. We can observe from this point that the quantized signal must change at each sampling point. The transmitted bit train would be 111100010111110 for the above case. The demodulator for a delta-modulated signal is nothing but a staircase generator. To increments the staircase in positively a one should be received. For negative increments a zero should be receive. This is done by a low pass filter in general. The main thing for the delta modulation is to make the right choice of step size and sampling period. A term overloading is occurred when a signal changes randomly fast for the steps to follow. The step size and the sampling period are the important parameters. In modern consumer electronics short-range digital voice transmission is used. There are many products which uses digital techniques. Such as cordless telephones, wireless headsets (for mobile and landline telephones), baby monitors are few of the items. This digital techniques used Wirelessly communicate voice information. Due to inherent noise in wireless environments the Voice coding scheme chosen. For such an application the presence of robust bit errors must be. In the presence of bit errors Pulse Coded Modulation (PCM) and its derivatives are commonly used in wireless consumer products. This is due to their compromise between voice quality and implementation cost, but these are not robust schemes. Another important voice coding scheme is Adaptive Delta Modulation (ADM). It is a mature technique for consideration for these types of applications due to its robustness in bit error and its low implementation cost. To quantize the difference between the current sample and the predicted value of the next Sample ADM is used. It uses a variable called step height which is used to adjustment of the prediction value of the next sample. For the reproduction of both slowly and rapidly changing input signals faithfully. In ADM, the representation of each sample is one bit (i.e. 1 or 0). It does not require any data framing for one-bit-per-sample stream to minimizing the workload on the host microcontroller. In any digital wireless application there should be Bit errors. In ideal environment most of the voice coding techniques are provided which are good in quality of audio signals. The main thing is to provide good audio signals in everyday environment, there may be a presence of bit errors. For different voice coding methods and input signals the traditional performance metrics (e.g. SNR) does not measure accurately in audio quality. . Mean Opinion Score (MOS) testing is the main important parameter which overcomes the limitations of other metrics by successfully in audio quality. For audio quality the MOS testing is used. It is a scale of 1 to 5 which tells the audio quality status. In there 1 represents very less (bad) speech quality and 5 represents excellent speech quality. A toll quality speech has a MOS score of 4 or higher than it. The audio quality of a traditional telephone call has same MOS value as above. The below graphs shows the relationship between MOS scores and bit errors for three of the most common voice coding schemes. Those are CVSD, ÃŽÂ ¼-law PCM, and ADPCM. A continuously Variable Slope Delta (CVSD) coding is a member of the ADM family in voice coding schemes. The below graph shows the resulted audio quality (i.e. MOS score). All three schemes explain the number of bit errors. As the no of bit errors increases the graph indicates that ADM (CVSD) sounds better than the other schemes which are also increase. In an ADM design error detection and correction typically are not used because ADM provides poor performance in the presence of bit errors. This leads to reduction in host processor workload (allowing a low-cost processor to be used). The superior noise immunity significantly reduced for wireless applications in voice coding method. The ADM is supported strongly by workload for the host processor. The following example shows the benefits of ADM for wireless applications and is demonstrated. For a complete wireless voice product this low-power design is used which includes all of the building blocks, small form-factor, including the necessary items. ADM voice codec Microcontroller RF transceiver Power supply including rechargeable battery Microphone, speaker, amplifiers, etc. Schematics, board layout files, and microcontroller code written in C. Delta modulation (DM) may be viewed as a simplified form of DPCM in which a two level (1-bit) quantizer is used in conjunction with a fixed first-order predictor. The block diagram of a DM encoder-decoder is shown below.   The dm_demo shows the use of Delta Modulation to approximate input sine wave signal and a speech signal that were sampled at 2 KHz and 44 KHz, respectively. The source code file of the MATLAB code and the out put can be viewed using MATLAB. Notice that the approximated value follows the input value much closer when the sampling rate is higher. You may test this by changing sampling frequency, fs, value for sine wave in dm_demo file. Since DM (Delta Modulator) approximate a waveform Sa(t) by a linear staircase function, the waveform Sa(t) must change slowly relative to the sampling rate. This requirement implies that waveform Sa(t) must be oversampled, i.e., at least five times the Nyquist rate. Oversampling means that the signal is sampled faster than is necessary. In the case of Delta Modulation this means that the sampling rate will be much higher than the minimum rate of twice the bandwidth. Delta Modulation requires oversampling in order to obtain an accurate prediction of the next input. Since each encoded sample contains a relatively small amount of information Delta Modulation systems require higher sampling rates than PCM systems. At any given sampling rate, two types of distortion, as shown below limit the performance of the DM encoder.   Slope overload distortion: This type of distortion is due to the use of a step size delta that is too small to follow portions of the waveform that have a steep slope. It can be reduced by increasing the step size. Granular noise: This results from using a step size that is too large too large in parts of the waveform having a small slope. Granular noise can be reduced by decreasing the step size. Even for an optimized step size, the performance of the DM encoder may still be less satisfactory. An alternative solution is to employ a variable step size that adapts itself to the short-term characteristics of the source signal. That is the step size is increased when the waveform has a step slope and decreased when the waveform has a relatively small slope. This strategy is called adaptive DM (ADM). Block Diagram Adaptive Delta Modulation for Audio Signals: While transmitting speech for e.g. telephony the transfer rate should be kept as small as possible to save bandwidth because of economic reason. For this purpose Delta Modulation, adaptive Delta modulation, Differential Pulse-Code modulation is used to compress the data. In this different kind of Delta modulations and Differential Pulse Code modulations (DPCM) were realized to compress audio data. At first the principal of compressing audio data are explained, which the modulations based on. Mathematical equations (e.g. Auto Correlation) and algorithm (LD recursion) are used to develop solutions. Based on the mathematics and principals Simulink models were implemented for the Delta modulation, Adaptive Delta modulation as well as for the adaptive Differential Pulse Code modulation. The theories were verified by applying measured signals on these models. Signal-to-noise ratio Signal-to-noise ratio (often abbreviated SNR or S/N) is an electrical engineering measurement, also used in other fields (such as scientific measurement or biological cell signaling), defined as the ratio of a signal power to the noise power corrupting the signal. A ratio higher than 1:1 indicates more signal than noise. In less technical terms, signal-to-noise ratio compares the level of a desired signal (such as music) to the level of background noise. The higher the ratio, the less obtrusive the background noise is. In engineering, signal-to-noise ratio is a term for the power ratio between a signal (meaningful information) and the background noise: where P is average power. Both signal and noise power must be measured at the same and equivalent points in a system, and within the same system bandwidth. If the signal and the noise are measured across the same impedance, then the SNR can be obtained by calculating the square of the amplitude ratio: where A is root mean square (RMS) amplitude (for example, typically, RMS voltage). Because many signals have a very wide dynamic range, SNRs are usually expressed in terms of the logarithmic decibel scale. In decibels, the SNR is, by definition, 10 times the logarithm of the power ratio: Cutoff rate For any given system of coding and decoding, there exists what is known as a cutoff rate R0, typically corresponding to an Eb/N0 about 2 dB above the Shannon capacity limit. The cutoff rate used to be thought of as the limit on practical error correction codes without an unbounded increase in processing complexity, but has been rendered largely obsolete by the more recent discovery of turbo codes. Bit error rate In digital transmission, the bit error rate or bit error ratio (BER) is the number of received binary bits that have been altered due to noise and interference, divided by the total number of transferred bits during a studied time interval. BER is a unit less performance measure, often expressed as a percentage number. As an example, assume this transmitted bit sequence: 0 1 1 0 0 0 1 0 1 1, And the following received bit sequence: 0 0 1 0 1 0 1 0 0 1, The BER is in these case 3 incorrect bits (underlined) divided by 10 transferred bits, resulting in a BER of 0.3 or 30%. The bit error probability pe is the expectation value of the BER. The BER can be considered as an approximate estimate of the bit error probability. The approximation is accurate for a long studied time interval and a high number of bit errors. Factors affecting the BER In a communication system, the receiver side BER may be affected by transmission channel noise, interference, distortion, bit synchronization problems, attenuation, wireless multipath fading, etc. The BER may be improved by choosing a strong signal strength (unless this causes cross-talk and more bit errors), by choosing a slow and robust modulation scheme or line coding scheme, and by applying channel coding schemes such as redundant forward error correction codes. The transmission BER is the number of detected bits that are incorrect before error correction, divided by the total number of transferred bits (including redundant error codes). The information BER, approximately equal to the decoding error probability, is the number of decoded bits that remain incorrect after the error correction, divided by the total number of decoded bits (the useful information). Normally the transmission BER is larger than the information BER. The information BER is affected by the strength of the forward error correction code. CHAPTER II Pulse-code modulation: Pulse-code modulation (PCM) is a method used to digitally represent sampled analog signals, which was invented by Alec Reeves in 1937. It is the standard form for digital audio in computers and various Compact Disc and DVD formats, as well as other uses such as digital telephone systems. A PCM stream is a digital representation of an analog signal, in which the magnitude of the analogue signal is sampled regularly at uniform intervals, with each sample being quantized to the nearest value within a range of digital steps. PCM streams have two basic properties that determine their fidelity to the original analog signal: the sampling rate, which is the number of times per second that samples are taken; and the bit-depth, which determines the number of possible digital values that each sample can take. Digitization as part of the PCM process In conventional PCM, the analog signal may be processed (e.g. by amplitude compression) before being digitized. Once the signal is digitized, the PCM signal is usually subjected to further processing (e.g. digital data compression). PCM with linear quantization is known as Linear PCM (LPCM). Some forms of PCM combine signal processing with coding. Older versions of these systems applied the processing in the analog domain as part of the A/D process; newer implementations do so in the digital domain. These simple techniques have been largely rendered obsolete by modern transform-based audio compression techniques. * DPCM encodes the PCM values as differences between the current and the predicted value. An algorithm predicts the next sample based on the previous samples, and the encoder stores only the difference between this prediction and the actual value. If the prediction is reasonable, fewer bits can be used to represent the same information. For audio, this type of encoding reduces the number of bits required per sample by about 25% compared to PCM. * Adaptive DPCM (ADPCM) is a variant of DPCM that varies the size of the quantization step, to allow further reduction of the required bandwidth for a given signal-to-noise ratio. * Delta modulation is a form of DPCM which uses one bit per sample. In telephony, a standard audio signal for a single phone call is encoded as 8000 analog samples per second, of 8 bits each, giving a 64 kbit/s digital signal known as DS0. The default signal compression encoding on a DS0 is either ÃŽÂ ¼-law (mu-law) PCM (North America and Japan) or A-law PCM (Europe and most of the rest of the world). These are logarithmic compression systems where a 12 or 13-bit linear PCM sample number is mapped into an 8-bit value. This system is described by international standard G.711. An alternative proposal for a floating point representation, with 5-bit mantissa and 3-bit radix, was abandoned. Where circuit costs are high and loss of voice quality is acceptable, it sometimes makes sense to compress the voice signal even further. An ADPCM algorithm is used to map a series of 8-bit  µ-law or A-law PCM samples into a series of 4-bit ADPCM samples. In this way, the capacity of the line is doubled. The technique is detailed in the G.726 standard. Later it was found that even further compression was possible and additional standards were published. Pulse code modulation (PCM) data are transmitted as a serial bit stream of binary-coded time-division multiplexed words. When PCM is transmitted, pre modulation filtering shall be used to confine the radiated RF spectrum. These standards define pulse train structure and system design characteristics for the implementation of PCM telemetry formats. Class Distinctions and Bit-Oriented Characteristics The PCM formats are divided into two classes for reference. Serial bit stream characteristics are described below prior to frame and word orient

Quality Management Essay

Before we start our subject, let’s define briefly some key words that will be used in our studies. We will describe quality management, quality assurance as well as quality control. For a better understanding of our subject we will run all these quality types with more details in the next pages. Quality management, used by many companies, has a specific meaning within many business sectors. The quality management doesn’t especially promote a good quality for a firm, but rather to ensure that a product or organization is consistent, can be considered to have four components: quality planning, quality control, quality assurance, and quality improvement. Quality management focuses not only on product or service, but also in the way to achieve it. Therefore, quality management is using quality assurance and control of processes as well as products to achieve a better quality. We will describe clearly these two types in our subject. However quality assurance known as QA; refers to engineering activities that are implemented in a quality system so that requirements for a product or service will be accomplished. Quality assurance is associated with feedback loop that confers error prevention, systematic measurement, comparison with standard and monitoring of processes. Additionally, there are two principles included in quality management: â€Å"Fit for purpose†, the product should be suitable for the intended purpose; â€Å"Right first time† mistakes must be eliminated. Quality assurance manage quality of assemblies, product and components, raw materials, production and inspection processes. In the other hand, quality control knows as QC is more general. It is a process by which companies review the quality of all f actors involved in production. This approach can be described on three aspects: 1- Elements such as controls, job management – defined and well managed processes, performance and integrity criteria and identification of records 2- Competence such as knowledge, skills, experience, and qualifications 3- Soft elements such as personnel, integrity, confidence, organizational culture, motivation, team spirit, and quality relationships. Controls is also a product inspection, in different way every product is examined visually and often using a stereo microscope for deep details before the product is sold in an external market. Usually inspectors provide lists and descriptions of defected products such as surface blemishes or cracks for instance. After defining all these terms, we can obviously examine our subject with more  details. Let’s start with quality assurance. Remember the basic principle of a quality assurance, is working out the best course of action beforehand and communicating it to all department concerned, applying this concept whenever a planned process is complex. Beyond this, the decision to follow a quality assurance depends on your organization’s decision; however the firm should answer the following questions: * Is your organization prepared to invest time to follow the formal discipline required? * Does the regional law require your organization’s compliance with a specific standard such as pharmaceutical manufacturers? * Do your customers insist on your organization’s compliance with a standard; (nowadays many companies prefer to deal with supplier with quality assurance certification)? After answering all these questions positively, and making the decision to implement quality assurance. We can start in general way by identifying the tasks, processes or systems critical to the business and writing clearly a guidelines and instructions for employees. Use a guidelines and instructions for training and day-to-day reference. For processes and systems covered will basically reduce: * Wasting time and materials associated with error * The number of errors; * The number of problems to fix and customer complaints; * The time spent on giving day-to-day instructions; * The time needed to improve processes and systems by establishing a stable base. However, you can also take this general principle of clearly documenting tasks, systems and processes to the next level, by using ISO 9000, which is related to quality management systems and to help organizations assure that they meet the right needs of clients and other stakeholders, while meeting statutory and regulatory requirements related to the product. We could also establish another appropriate quality assurance system code as a model to cover all aspect of quality, using formal discipline for controlling information accuracy, and reviewing and improving systems. Therefore quality assurance is deeply involved in any commercial product, from MP3 players, to children’s toys, to video games. A specialist needs to test and use almost all items you buy. Is not performed by one person but by a group of people, and it has many level of testing, from the minute, testing tiny pieces of code, to the gigantic, testing the final  products. In United States, the Occupational Safety and Health Administration (OSHA), the Environmental Protection Agency and other federal and states regulatory agencies have instituted rules and regulations regarding manufacturing practices and products. In large measure, it is the responsibility of the quality assurance department to maintain compliance with these regulations. After all, companies using quality assurance get benefice from it. This system basically increases customers’ confidence and companies’ credibility, which very important nowadays in the current market. Improving work processes and efficiency will definitely enable to better compete with other competitors and increase earnings. Today’s quality assurance systems emphasize catching defects before they get into the final product. The quality assurance team uses a popular tool commonly called PDCA (Plan, Do, Check, Act) to evaluate and determine excellence and provide improvement. The principle is, once a hypothesis is negated, beginning and implementing the cycle again will further extend knowledge, bringing about perfect output and operation within the company. In the other hand, quality control is similar to, but not identical with quality assurance. As described before, it is a procedure or set of procedures intended to ensure that a manufactured product or performed service adheres to a defined set of quality requirements or mee ts the needs of the clients and/or customers. In order to install an effective quality control program, the firm must first decide which specific standards the service and/or product must meet. Then the extent of quality control actions must be determined – for instance, the percentage of units should be tested from each lot. After that, the real-world data must be collected – the percentage of unit that fail, and the result should be reported correctly to the management personnel. Next, the corrective actions take place and decided upon and taken – defective units must be repaired or rejected, and service repeated at no charge until the costumers are satisfied. In some companies, if too many failures or instances of poor service happen, the plan must be devised to improve the production process and then that plan must be put into action. However, quality control process must be ongoing to assure the remedial effort by producing satisfactory results, and immediately detecting recurrences or new instances of trouble. The quality of product or service is ensuring if proper designing process is followed. This designing process needs to be  back by an appropriate process design which confirm to requirement of customers. Quality control also ensures error and defects are prevented and finally deleted from the process of production. However, quality control should include: Planning, designing, implementation, gaps identification and improvisation. The benefits from an organization which is implementing a stringent quality control are as follow: * Reducing product defects lead to less variable cost associated with labor and material; * Increase in employee motivation and awareness of quality; * Increase in productivity and overall efficiency. * Reduction in wastage, scrap and pollution; * Ability to produce quality products over longer period of time; * With quality maintenance needs for inspection reduces leading to decrease in maintenance cost; * And finally ensure customers satisfaction; However the quality of any giving product and service determines success of failure of the company. All consumers expect the company to maintain high-level of quality and consider it one of the most important aspect of satisfaction. Therefore, quality management becomes very important as far as any organization is concerned. It can be accomplished through various quality control techniques. Quality assurance and quality control are objectively oriented and can be achieved through statistical quality control. Quality reviews are conducted to gather evidence on whether or not standards are being met. An effective quality review is a team effort involving several roles. The three most important roles will be given different names depending on the type of organization, but can generally be described as the creator, the reviewer and the manager. REFERENCES: 1- Wikipedia.com: Quality Management, Quality assurance and Quality control 2- Whatls.com: http://whatis.techtarget.com/definition/quality-control-QC 3- Asq.org: http://asq.org/learn-about-quality/quality-assurance-quality-control/overview/overview.html 4- C2.com: http://c2.com/cgi/wiki?QualityAssuranceIsNotQualityControl 5- Hci.com:

If You Read Nothing Else Today, Read This Report on Sample of a Research Paper

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Islamic Art And Hinduism Art - 1308 Words

Every religion in this world has their own culture and thereby their own creative forms, like art, dance, architecture, music and craft. Like the tradition varies from each religion to religion so as their Art. I chose to compare Art forms of Islamic Art and Hinduism Art, as Art have always exited me and inspired me in many ideas, and secondly arts have its own history and reasoning. Islamic Art Islamic craftsmanship contrasts, thusly, from such other terms as Buddhist, Christian or Hindu workmanship, for it alludes not just to expressions of the human experience delivered by or for the religion of Islam yet to human expressions of every single Islamic society. Islamic workmanship was not so much made by or for Muslims, for some Islamic craftsmanship was made by Christian, Jewish, or even Hindu craftsmen working for Muslim supporters, and some Islamic workmanship was made for non-Muslim benefactors. The term does not allude to a specific style or period, however covers an expansive domain, including human expressions delivered more than one-fifth of the globe in the conventional heartland of Islam amid the last fourteen hundred years. Islamic craftsmanship incorporates the visual expressions delivered from the 7th century onwards by individuals who lived inside the region that was possessed by or governed by socially Islamic populations. It is along these lines an exceptionally troublesome workmanship to characterize in light of the fact that it covers numerous groundsShow MoreRelatedHinduism And Islamic Religious Beliefs1276 Words   |  6 Pagesin culture, art, and politics. Religions also can impact in many ways but can learn about some certain religions to know about more religions. Two of the religions are Hinduism and Islam. Hinduism and Islamic religion have been around for centuries, but Hinduism is older than Islamic religion. Those two religions interested me to know about their places, the services, and worship. The two religions places that I went are Hinduism Temple and Islamic Mosque. When I went to the Hinduism temple theyRead MoreThe Taj Mahal or The Golden Temple820 Words   |  3 PagesTABLE OF CONTENTS Painted Art 1 History 1 Murals and Miniatures 1 Folk and Tribal Art 1 Religious Art 1 Christian Art 1 Buddhist Art 2 Islamic Art 2 Architectural Art 2 Taj Mahal 2 The Golden Temple 2 Humayun’s Tomb 2 Festivals 3 Dance 3 Theater 3 Music 3 India has some of the world’s greatest arts. For example the Taj Mahal, the Golden Temple, and Sri Ranganathaswamy Temple. In India, art is expressed in many different forms. India has one of the world’s largest collections of songs, musicRead More Religion in India Essay1629 Words   |  7 Pagesbound to be clashes within itself. India has had its share of different religions affecting its structure, but the three main religions are Hinduism, Buddhism, and Islam. All three of these religions have evolved drastically and have left a lasting mark on where India stands right now. Hinduism is one of the oldest religions in the world. The history of Hinduism extends over centuries, and the lack of early documents makes it difficult to trace exactly. â€Å"Inwardly it changed from century to centuryRead MoreAkbar The Great, The Second Ruler Of The Mughal Empire892 Words   |  4 Pagesbetween Hindus and Muslims specifically. â€Å"[Akbar’s] syncretistic genius had its impact not only on the political affairs of the Mughal Empire but also on the development of the arts†(Koch 43). The Sufi sect held the majority of the Islamic population in India at this time. And although Sufism holds more similarities to Hinduism than Orthodox Islam, there was still great animosity between the two religions. This only pushed Akbar further in his quest for unity. So much so that he created his own religionRead MoreIslamic Culture Essay1273 Words   |  6 Pagesphenomenon. Source of this culture comes from the teachings provided by the Holy Prophet Mohammed (P.B.U.H) and Islam (Bouhdiba, 2003). Muslims are the followers of Islam and the Islamic (Abrahamic) religion. Word â€Å"Muslim† originally comes from an Arabic term which means â€Å"Followers of Allah† because the Islamic religious deliver. Muslims believe on one God and admits that Allah is incomparable and Islam is a religion which provides them with a complete code of life. Teachings of Quran are unalteredRead MoreThe Islamic Diffusion Of India1243 Words   |  5 Pagesbuilt in 629, it is called the Cheraman Juma Masjid. The mosque was made in the Indian state Kerala. Islam continued to spread into Indian cities, by immigration and conversion, as the Arab Muslims and the Indians continued trading. DIFFUSION Islamic diffusion in India happened through both Relocation and Expansion. India was first introduced to Islam in the 600’s when Arab traders regularly sailed to the west coast of India to trade goods like spices and gold. At this time the ArabsRead MoreIndi A Largest Of Indian Culture Essay1148 Words   |  5 Pages and arts are all major qualities. Today, India is the 2nd most populated nation with over 1.2 billion people. India is very diverse and different regions have their own definite culture. Indians made substantial innovations in architecture, mathematics, and in medicine. The third and fourth largest religions in the world, Hinduism and Buddhism, were born in India. According to the Handbook of Research on Development and Religion, around 84 percent of India’s population practices Hinduism, 13 percentRead MoreSimilarities between Beliefs and Philosophies from the World1637 Words   |  7 Pagespolitical systems and almost everything. Here is an image showing the distribution of various religions around the world. Religions followed in different countries/ Places: Christianity The Americas and Europe Islam Middle East, Africa and Oceania Hinduism Southern Asia Buddhism East Asia Christianity is followed in majority parts of the world due to its vast influence by the missionaries. It is the most followed religion in the world and thus stands first. Islam is mostly followed in the MiddleRead MoreChristianity And Its Impact On Society Essay1282 Words   |  6 Pages In our modern society, religion can either promote positive, optimistic actions or negative, destructive ones. From Christianity to Daoism, each different religion shapes the lives of its followers. Christianity and Hinduism can propel their followers to achieve moral greatness, while Islam and _____ can cause people to do heinous, damaging acts of violence and self-destruction. The first, and most domestically prevalent, circumstance deals with Christianity and how it truly shapes the daily livesRead MoreMuslim World Cosmopolitanism1699 Words   |  7 PagesLA ILAHA ILLALLAH, no god but Allah, is the most fundamental and oft-chanted phrase of the Islamic belief. It simultaneously negates the existence of all other deities, and affirms the divinity of the only one true God, Allah---all in one breath. It is truly the most exclusive and iconoclastic claim that rejects the notion of anyone being divine except Allah. The American Heritage Dictionary defines ‘cosmopolitan’ as something that is â€Å"common to the whole world,† or a person who is â€Å"at home