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วันจันทร์ที่ 6 กุมภาพันธ์ พ.ศ. 2555

CHAPTER 10 Pros and crops of information technology

 Advantages of information technology include:

Globalization - IT has not only brought the world closer together, but it has allowed the world's economy to become a single interdependent system. This means that we can not only share information quickly and efficiently, but we can also bring down barriers of linguistic and geographic boundaries. The world has developed into a global village due to the help of information technology allowing countries like Chile and Japan who are not only separated by distance but also by language to shares ideas and information with each other.

Communication - With the help of information technology, communication has also become cheaper, quicker, and more efficient. We can now communicate with anyone around the globe by simply text messaging them or sending them an email for an almost instantaneous response. The internet has also opened up face to face direct communication from different parts of the world thanks to the helps of video conferencing.

Cost effectiveness - Information technology has helped to computerize the business process thus streamlining businesses to make them extremely cost effective money making machines. This in turn increases productivity which ultimately gives rise to profits that means better pay and less strenuous working conditions.

Bridging the cultural gap - Information technology has helped to bridge the cultural gap by helping people from different cultures to communicate with one another, and allow for the exchange of views and ideas, thus increasing awareness and reducing prejudice.

More time - IT has made it possible for businesses to be open 24 x7 all over the globe. This means that a business can be open anytime anywhere, making purchases from different countries easier and more convenient. It also means that you can have your goods delivered right to your doorstep with having to move a single muscle.

Creation of new jobs - Probably the best advantage of information technology is the creation of new and interesting jobs. Computer programmers, Systems analyzers, Hardware and Software developers and Web designers are just some of the many new employment opportunities created with the help of IT.


Disadvantages of information technology include:

Unemployment - While information technology may have streamlined the business process it has also crated job redundancies, downsizing and outsourcing. This means that a lot of lower and middle level jobs have been done away with causing more people to become unemployed.

Privacy - Though information technology may have made communication quicker, easier and more convenient, it has also bought along privacy issues. From cell phone signal interceptions to email hacking, people are now worried about their once private information becoming public knowledge.

Lack of job security - Industry experts believe that the internet has made job security a big issue as since technology keeps on changing with each day. This means that one has to be in a constant learning mode, if he or she wishes for their job to be secure.

Dominant culture - While information technology may have made the world a global village, it has also contributed to one culture dominating another weaker one. For example it is now argued that US influences how most young teenagers all over the world now act, dress and behave. Languages too have become overshadowed, with English becoming the primary mode of communication for business and everything else.

CHAPTER 11 Example of information system in any organization

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BMW Diagnosis & Information System / GT1 (Multilanguage)







BMW DIS(V56) – Diagnostic & Information System – Contains Technical Information System (TIS)…this includes technical literature of repair manuals. BMW group tester one (GT1) is offered to the aftermarket in the same specification that is currently supplied to BMW franchised dealers. It is special-purpose tool of BMW Series. GT1 is supplied with a Pentium based laptop PC on a Windows platform connected to a high specification communications and measurement interface.


GT1 can complete coverage of ALL BMW systems, one thing that can only be done using the GT1, this function is called Electronic Control Unit (ECU) programming and configuration. Many of the original electronic systems on modern vehicles can now be re programmed using software; historically any changes to rectify software problems would involve a new ECU which would be purchased from the parts department and that is the only way that the independent market today is able to overcome these problems. The BMW GT1 system allows you re programme all BMW car ECU’s to fix software or to install a blank ECU to a repaired vehicle. GT1 is the only system that allows you to do this and is absolutely essential if working on Freelander , the GT1 is also the only system that provides all diagnostics and programming for the very latest BMW launched this year.


BMW Group Tester One (GT1) is specially offered to the BMW workshops & service center with the same specification that is currently supplied to BMW franchised dealers. It is the special-purpose diagnostic and programming tool of ALL BMW Series.




GT1 can covers ALL the systems of ALL BMW series cars, It is used to communicate with Electronic Control Unit (ECU) for diagnosis and programming. All the BMW cars with ECU system can be scanned by GT1 system, using DIS(V56), and be programmed using SSS(V32). With GT1 system, you don’t need to split all the parts with fault in the BMW car. GT1 help you to read the fault code, and do diagnosis, programming. The BMW GT1 system allows you to reprogram all the BMW car ECUs to fix software or to install a blank ECU to a repaired vehicle.


GT1 is the only system that allows you to do this and is absolutely essential if working on Freelander. The GT1 is also the only system that provides all diagnostics and programming for the very latest BMW launched in 2007.


BMW GT1 software kit comprises of five system ,TIS system(Technical Information System), DIS(V56) system(Diagnostic and Information System), SSS(V32) system (Software Service Station), Measuring system and Management system. You can test and check data information at same time in GT1.

วันจันทร์ที่ 23 มกราคม พ.ศ. 2555

CHAPTER 7

The idea to help to support
flooding in Thailand

   **Mandatory large-scale planting of trees

  ** Established a solid waste management

  **Established a wastewater treatment plant

  **Implement a long term clean-up     removal of sunken wrecks, dredging and maintenance of all rivers and esteros.

 **Inform, educate and communicate to the public    specially the students to learn about the importance of the environment.

   ** Established a comprehensive disaster relief and emergency management  - Emergency situations can happen any time. We all have roles and responsibilities in preparing for , responding to and managing emergencies. All cities and municipalities should identify susceptible areas to build a safety and preparedness among community at risk and put in place emergency management programs and response plans.

** Provide new and advance warning system  with warning post equipped with voice warning and sirens designated at strategic location for all communities

**Provide an accurate modern weather forecasting- By upgrading all weather instrument and provide a new Doppler radar at every city with back-ups and generators.

 **Construct 2 to 3 more additional spillway

 ** Built a shore dike dam wall and road along the river banks

** Create a self-reliant community avoid using the words resettlement and relocation to avoid discrimination. This communities are intended to be socially, economically and ecologically sustainable lifestyle.

 **Established the dam management review & protection committee  which consolidates dam management into one. They have the power to coordinate, monitor, evaluate, develop policies and procedures on matters relating to the management, direct access to weather information, safety precaution, warnings, maintenance, repair, and use of dams.


" Please do your part in helping protect our environment.....act now on the possible effects of climate change, mitigate the irreversible damage to our ecology..... before its to late."




















CHAPTER 9

 Characteristics of a Good Website

1. Original, Fresh Content

Content is king in the web world. People visit websites for the primary purpose of finding content, so make sure you deliver. Website content should be unique and up to date. Fresh content will keep visitors and search engines coming back for more. Don’t forget to proofread!

2. Target Audience

From a quick scan of your website, visitors should be able to determine what you offer and how you can benefit them. A good website will have headlines and text that speaks to the target audience’s needs and wants. Many websites simply list what their company does without saying how they can benefit their target audience. Keep your audience in mind when designing your website to be sure that it will appeal to them and encourage them to take action (whether that is to submit a contact form, signup for a newsletter or buy a product).

3. User-Friendly Navigation

A good website has content that is easy to find. Pages should be organized and named in a way that the target audience will easily understand. For instance, a services page would be better labeled “Services” than “Business Solutions.” Keep your navigation consistent from page to page to avoid any possible confusion. Double check all your links to make sure they are working. Make sure that your most popular content is no more than a click away from your homepage. If your website has a lot of content, provide a search box so visitors can quickly find what they are looking for.

4. Simple and Professional Design

A good website will have an attractive layout that is easy on the eyes. Be sure your colors contrast well and your text doesn’t require a magnifying glass to read. Personally, I can’t stand reading large amounts of content written in white on a black background. It strains my eyes. Reducing the contrast a bit can help (light grey text on dark grey background).
Lots of text can overwhelm a user. Breaking up text into subheads and bullet points will improve the layout of the page and make the text more scannable. No one has time to read every word on a page.
Use design elements to draw attention to or to enhance the content of a page. With every design element added, take a step back and make sure it serves a purpose and does not detract from the usability of the site. Put things where users expect them to be. However, do try to make your website look unique. Just remember that simple, professional design will be much more effective than flashy, overcrowded design.

5. Speed

How many seconds will you wait for a page to load before you give up and leave a website? Many factors can affect the loading time of a website including coding, number of graphics, the server speed, traffic volume on the website and the capabilities of a user’s computer.
Make sure your server has the proper amount of space/bandwidth for your website and that your website code is lightweight. Use large graphics sparingly. Use CSS styles in place of graphics where possible. Waiting for large graphics or a fancy flash animation to load on each page will surely turn away some visitors.

6. Search engine optimization

SEO is one of the most commonly neglected aspects of a website, but a website is useless if no one can find it. Think about the keywords that users may search for to find a product or service you offer. Do some research to see how often those keywords are searched for through a tool like Google’s Keyword Tool. Use keywords in titles, meta tags, headings, file names and in the content of your site. Search engine optimization can mean the difference between getting 500 visitors a month and 500+ visitors a day.

7. Link building

Links are an important factor in determining where your website appears in search engine results. Find as many legitimate sites as you can that will link you your website. Add your link to your business profile in directories like Google Local, Yahoo! Local, Merchant Circle, Insider Pages, Yellow Pages, LinkedIn and more. Submit articles and PR to sites that will include a link back to your website. The best way to get links to your site, however, is to provide unique and interesting content that people want to link to. You can make it easy for them to share your content by providing links or buttons such as the addthis.com button.

8. Tracking

A good website is a work in progress. A nice tool like Google Analytics will keep track of the number of people who come to your website, what pages they viewed, where they came from, what keywords they used in search engines, how many left after the first page and more. Unlike other media, websites can be easily tracked to see what is working and what isn’t. This data will help you to improve the quality and structure of your site.

Conclusion

Remember to include these characteristics in your next website design project. A professional-looking website with interesting content that is easy to navigate and can be found in search engines is sure to bring value to your business.
Feel free to comment. What other ingredients can spice up a website? What has been your most effective strategy in gaining website traffic.



Example of good website

http://www.flickr.com/
http://www.toyota.com/
http://www.marketing.fm/


Example of bad website

http://www.macys.com/

Why I choose this one because fuzzy graphics, uninspiring some say. Bad service say others (which doesn't count against the site actually

วันจันทร์ที่ 3 ตุลาคม พ.ศ. 2554

CHAPTER 6 Example of Report&Citation

Computer systems computer systems

Assignment 1 - Topic: scanners


Date: 03/10/2011

  Student name: Ms.Pit-arpa  Phuangngoen

  Student number: 52050972

Tutor name:

Tutorial time:
Abstract
This report investigates the current state of scanner technology and examines the predicted future advancements of scanners. A brief history of the scanner and its operation is initially outlined. The discussion then focuses on the advantages and limitations of the five main types of scanners in common use today: drum, flatbed, sheet-fed, slide, and hand held scanners. The performance of these scanners is examined in relation to four main criteria: resolution, bit-depth, dynamic range and software. It is concluded that further technological advances in these four areas as well as the deployment of new sensor technology will continue to improve the quality of scanned images. It is also suggested that specialised scanners will increasingly be incorporated into other types of technology such as digital cameras.

Table of contents

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Abstracti
1.0Introduction1
2.0How scanners work2
3.0Types of scanners2
3.1Drum scanners2
3.2Flatbed scanners2
3.3Sheet-fed scanners2
3.4Slide scanners3
3.5Hand held scanners3
4.0Scanner specifications3
4.1Resolution3
4.2Bit-depth4
4.3Dynamic range4
4.4Software4
5.0Future developments5
6.0Conclusion5
7.0Reference list5
Appendicies6
Appendix 1 Image Sensor Scanner8
Appendix 2 Frequently Used References9
Appendix 2.1 Scanner Tips10
Appendix 2.2 Scanners, Digital Cameras and Photo CDs11
Appendix 2.3 The PC Technology Guide12

1. Introduction

The purpose of this report is to survey the current state of scanner technology and to briefly discuss predicted advancements in the field.
By examining a range of recently published journal articles, magazine articles and internet sites on the topic of scanners this report describes the main types of scanners in common use today and examines their performance in relation to four criteria: resolution, bit-depth, dynamic range and software. The report then considers the effect of further technological advances in these four areas, as well as the deployment of new sensor technology on the future development of scanners.
The first scanner, initially referred to as a 'reading machine', was developed in 1960 by Jacob Rabinow, a Russian born engineer. The device could scan printed material and then compare each character to a set of standards in a matrix using, for the first time, the "best match principle" to determine the original message (Blatner, Fleishman and Roth 1998, p.3). This reading machine was to form the basis for the development of current scanning, sorting and processing machines.
An early improvement on the reading machine was the drum scanner. These scanners used a type of scanning technology called photomultiplier tubes (PMT). Drum scanners are still used in industry today because of the high quality images they produce. The development of smaller, more economical scanners such as desktop scanners and scanners for domestic use followed the drum scanner as the number of computer users increased and computer technology advanced.
Scanners can now capture images from a wide variety of two and three dimensional sources. These images are converted to digitised computer files that can be stored on a hard-drive or floppy disk. With the aid of specific software, these images can then be manipulated and enhanced by the user. It is now possible to deploy electronic acquisition to create an entire layout (including all graphic elements) from the same computer. This means manual stripping is no longer required (Scanners, digital cameras and photo CDs 2000). Scanners are considered an invaluable tool for adding graphics and text to documents and have been readily adopted by both business and domestic users.

2. How scanners work

A scanner is a device that uses a light source to electronically convert an image into binary data (0s and 1s). This binary data can then be used to store the scanned image on a computer. A scanner recreates an image by using small electronic components referred to as the scanner's 'eyes' (Scanner tips 2000). The type of 'eyes' used in today's scanners are charge-coupled devices (CCD) and photomultiplier tubes (PMT). These electronic eyes measure the amount of light reflected from individual points on the page and translate it to digital signals that correspond to the brightness of each point (Englander 2000).
To create a file on the computer that represents a colour image, the scanner divides the image into a grid with many individual points called pixels or picture elements (Scanner tips 2000). A scanning head, termed a row of 'eyes', reads over the grid and assigns a number to each pixel based on the main colour in that pixel, using green, blue and red. For example an aqua pixel would be saved as a number to represent the proportion of blue, green and red which represents the colour aqua (Scanners, digital cameras and photo CDs 2000).

3. Types of scanners

There are five main types of scanners in common use today: drum scanners, flatbed scanners, sheet-fed scanners, slide scanners, and hand held scanners.

3.1 Drum scanners

Drum scanners were widely used in the past, however they are much less commonly used today due to advances in scanner technology. As a result of their expense, these machines are primarily used by professionals in industry, where they are considered important due to the high-end quality image they produce and because they use PMT technology which is more sophisticated than charge-coupled devices (CCDs) and contact image sensor's (CISs). Drum scanners are difficult to operate and technicians operate these scanners by placing the item to be scanned on a glass cylinder rotating at high speeds around the sensor (Sullivan 1996).

3.2 Flatbed scanners

The most popular scanners for general use are flatbed scanners. This type of scanner is highly versatile because it is able to scan flat objects as well as small three dimensional objects. Flat-bed scanners operate by placing the item to be scanned on a glass window while scanning heads move underneath it. A transparency adapter is used to scan transparent originals such as slides or x-rays, and an automatic document feeder is available for scanning large numbers of documents (Scanner tips 2000).

3.3 Sheet-fed scanners

Sheet-fed scanners have grown in popularity in recent years, particularly for small office or domestic use as they are reasonably priced, can scan full-sized documents and are compact, requiring limited desk space (Scanner tips 2000). Most models of sheet-fed scanners have an inbuilt document feeder to overcome the problem of manually feeding one sheet of paper at a time. However the actual process or scanning with a sheet-fed scanner may result in distortion as the image to be scanned moves over the scanning heads (Scanner tips 2000). A further limitation of sheet-fed scanners is that they are unable to scan three dimensional objects.

3.4 Slide scanners

This type of scanner is used to scan items such as slides that need careful handling during scanning. Unlike other scanners, the scanning heads in slide scanners do not reflect light from the image, but rather pass light through it. This enables these scanners to produce superior results without distortions caused by reflective light. To be able to scan small and detailed items, these scanners have a large number of eyes on the scanning head which produces a high quality result. Slide scanners tend to be more expensive and less versatile than flatbed and sheet-fed scanners as they are limited to only scanning slides and film. These scanners, however, are well suited to users requiring high quality scans of large numbers of slides (Scanner tips 2000).

3.5 Hand held scanners

Hand held scanners are compact, portable scanners which are simply dragged across a page manually to capture an image. These scanners are easy to use and economical to purchase; however, their use is limited to text of up to four inches in diameter that does not require a high resolution. For this reason, hand held scanners are unsuitable for colour images. A further disadvantage of hand held scanners is that the user must have a steady hand when scanning or the resulting image will be distorted (Scanner tips 2000).

4. Scanner specifications

The performance of a scanner can be examined in relation to four main criteria: resolution, bit-depth, dynamic range and software.

4.1 Resolution

Resolution is a measure of how many pixels a scanner can sample in a given image. It is used to describe the amount of detail in an image (Figeiredo, McIllree and Thomas 1996). Higher resolution scanners are generally more expensive and produce superior results as they have a greater capacity to capture detail. Scanners have two types of resolutions: optical resolution and interpolated resolution.
Optical resolution, or hardware resolution, is a measure of how many pixels a scanner can actually read. A current model desktop scanner typically has a resolution of 300 x 300 dots per inch (dpi) (Anderson 1999). This means that this scanner has a scanning head with 300 sensors per inch, so it can sample 300 dpi in one direction and 300 dpi in the other direction by stopping the scanning head 300 times per inch in both directions. Some scanners stop the scanning head more frequently as it moves down the page, giving an optical resolution of 300 x 600 dpi; however, scanning more frequently in one direction does not improve the result of the scan. The basic requirement for scanning detailed images and line art from photos or other printed originals is an optical resolution of 600 dpi. When scanning slides and negatives the minimum optical resolution is 1200 dpi.
Interpolated resolution measures the number of pixels a scanner is able to predict. A scanner can turn a 300 x 300 dpi scan into a 600 x 600 dpi scan by looking in-between scanned pixels and guessing what that spot would have looked like if it had been scanned. This prediction is then used to insert new pixels in between the actual ones scanned. This technique is less precise than optical resolution; however it assists in improving the enlargement of scanned images.

4.2 Bit depth

Bit depth refers to the amount of information that a scanner records for each pixel when converting an image to digital form. Scanners differ in the amount of data they record for each pixel within an image. The simplest kinds of scanners only record data related to black and white details and have a bit depth of 1 (Anderson 1999). The minimum bit depth required for scanning photographs and documents is 24-bits, while slides, negatives or transparencies need a scanner with at least 30-bits.
Thus for a scanner to produce a high quality scan with colour, a higher bit depth is required. In general, current scanners have a bit depth of 24, which means that 8 bits of information can be collected for the three primary colours used in scanning; blue, red and green (Anderson 1999). This high resolution allows scanners to produce images close to photographic quality.

4.3 Dynamic range

Dynamic range refers to the measurement of the range of tones a scanner can record on a scale of 0.0 to 4.0, with 0.0 being perfect white and 4.0 being perfect black. Colour flat-bed scanners usually have a dynamic range of 2.4. A range of this measurement is unable to provide high quality colour scans. A dynamic range of 2.8 and 3.2 is suited to professional purposes and can be found in high-end scanners. An even higher dynamic range of 3.0 to 3.8 can be provided by drum scanners.

4.4 Software

A scanner, like any type of hardware, requires software. Typically the two most common pieces of software provided with scanners include optical character recognition (OCR) and image editing software. Optical character recognition software translates the information recorded in a scan, tiny dots, into a text file which can be edited. Image editing software allows the tones and colours of an image to be manipulated for better printing and display. Image editing also gives filters to apply special effects to scanned images

5. Future developments

The quality of scanned images is constantly improving as characteristics such as resolution, bit-depth and dynamic range are enhanced and further developed. More sophisticated image editing and optical character recognition software development is also resulting in superior quality scans. Future advances are expected to result in the incorporation of specialized scanners into other types of technology such as the recently developed digital camera. This device allows the user to take pictures of three-dimensional objects much like a regular camera, except that instead of using film, the objects are scanned by the camera in a similar process to the functioning of a flatbed scanner.
The relatively new area of sensor technology in the form of a contact image sensor (CIS) (see Appendix 1) is expected to improve the functionality of scanners and the quality of images as it "replaces the cumbersome optical reduction technique with a single row of sensors" (Grotta and Wiener 1998, p. 1). Developers have already been able to produce a CIS scanner which is thinner, lighter, more energy efficient and cheaper to manufacture than a traditional CCD base device. However, the quality of the scan is not as good as its counterparts. Further development of CIS technology is needed to improve image quality and colour, and to address the problem of a limited 300 or 600 dpi.

6. Conclusion

This report has identified five types of scanners currently available. Some are primarily used for professional purposes such as the drum scanner; others are used more broadly in the workplace and home such as flatbed scanners and to a lesser extent sheetfed scanners. Scanners for specialized purposes have also been identified such as slide and handheld scanners. The performance of these scanners is dependent upon their resolution, bit-depth, dynamic range and software. Scanners have improved significantly in recent years in terms of weight, size, price and speed, and the replacement of CCD technology with CIS technology is anticipated to produce further benefits to these areas as well as to scan quality. The impact of these improvements is expected to increase the accessibility of scanner technology to a wider range of users and its suitability for a wider range of purposes. In relation to this, the future of scanner technology seems to point to the convergence of different technologies. Specialized scanners are currently being incorporated into other types of technologies such as digital cameras, printers, and photocopiers. This can be expected to continue with other forms of technology in conjunction with further improvements to image quality, speed, price, size and weight.

7. Reference list

Anderson, D. The PC Guide. [http:www.pctechguide.com/18scanners.htm].
Blatner, D., Fleishman, G. Roth, G. (1998) Real world scanning and halftones 2nd edition, Peachpit Press, USA.
Englander, I (2000). The Architecture of computer hardware and systems software. John Wiley, USA, p272.
Figeiredo, J. McIllree, J. Thomas, N. (1996) Introducing information technology 2nd edition Jacaranda Press, Singapore, p145.
Grotta, D. and Weiner, S. What's now ...What's next. [http://www.zdnet.com/pcmag/features/scanners98/intro.html] PC Magazines 20 October 1998. 8/4/00
Prepress, scanners, digital cameras and photoCDs. [http://www.prepress.pps.com/mem/lib/ptr/scanners.html] 1998. 6/4/00
Scansoft scanner tips [http://www.scannercentral.com/scanners/tips/tips1.asp] 2000.6/4/00
Sullivan. M. Types of scanners. [http://hsdesign.com/scanning/types/types.html] 1996. 8/4/00



More information :

http://www.monash.edu.au/lls/llonline/writing/information-technology/report/1.3.3.xml

 

 

 

 

 

 

 

 

Reference Collection



















CHAPTER 5 EXAMPLE OF DATABASE

A database is a collection of information that is organized so that it can easily be accessed, managed, and updated. In one view, databases can be classified according to types of content: bibliographic, full-text, numeric, and images.