.2.4. DATENKOMPRESSION
In the third class, the first we made was speaking about the “datenkompression”. Data compression or data compression is the use of techniques to reduce the memory requirements of data or to avoid traffic, for example, during the transfer of data.

The amount of data is reduced by a more favorable representation will be determined with the same data in a shorter form. This process takes an encoder, and is termed the process as compression or encoding. It speaks of a lossless compression (or lossless encoding), if the encoded data by applying the appropriate Dekodiervorschrift exactly those of the original. The application of Dekodiervorschrift known as decompression or decompression. If one of a lossy compression (or lossy coding) speaks, it means you so that the data are not always error reconstruct.
One of the best case of Datenkompressoren ist the Mp4. It is a multimedia container format standard specified as a part of MPEG-4. It is most commonly used to store digital audio and digital video streams, especially those defined by MPEG, but can also be used to store other data such as subtitles and still images. Like most modern container formats, MPEG-4 Part 14 allows streaming over the Internet. The official filename extension for MPEG-4 Part 14 files is .mp4, thus the container format is often referred to simply as MP4. Devices that play .mp4 files are referred to as MP4 players.
MPEG-4 Part 14 was based on Apple's Quicktime container format.[1] MPEG-4 Part 14 is essentially identical to the QuickTime MOV format, but formally specifies support for Initial Object Descriptors (IOD) and other MPEG features.
The existence of two different file extensions for naming audio-only MP4 files has been a source of confusion among users and multimedia playback software. Since MPEG-4 Part 14 is a container format, MP4 files may contain any number of audio, video, and even subtitle streams, making it impossible to determine the type of streams in an MP4 file based on its filename extension alone. In response, Apple Inc. started using and popularizing the .m4a file extension. Software capable of audio/video playback should recognize files with either .m4a or .mp4 file extensions, as would be expected, as there are no file format differences between the two. Most software capable of creating MPEG-4 audio will allow the user to choose the filename extension of the created MPEG-4 files.
While the only official file extension defined by the standard is .mp4, various file extensions are commonly used to indicate intended content:
• Audio-only MP4 files generally have a .m4a extension.
o MP4 files with audio streams encrypted by FairPlay Digital Rights Management as sold through the iTunes Store use the .m4p extension.
o Audio book and podcast files, which also contain metadata including chapter markers, images, and hyperlinks, can use the extension .m4a, but more commonly use the .m4b extension. An m4a audio file does not "bookmark" (remember the last listening spot) on an iPod, whereas m4b extension files do. Users can rename mp4 m4a file extensions m4b to activate this and faster listen iPod features.
• MP4 files with audio and video generally use the .mp4 and .m4v extensions, occasionally .mp4v. To add to confusion sometimes raw MPEG-4 Visual bitstreams are named .m4v.
• Mobile phones use 3GP, a simplified version of MPEG-4 Part 12 (a.k.a MPEG-4/JPEG2000 ISO Base Media file format, MPEG-4 Part 14 is a derivative of the standard from ISO Base file format too), with the .3gp and .3g2 extensions. These files also store non-MPEG-4 data (H.263, AMR, TX3G).
The common, but non-standard use of the extensions .m4a and .m4v is due to the popularity of Apple's iPod and the iTunes Store.
Almost any kind of data can be embedded in MPEG-4 Part 14 files through private streams; the widely-supported codecs and additional data streams are:
• Video: MPEG-4 Part 10 (also known as H.264 and MPEG-4 AVC), MPEG-4 Part 2, MPEG-2, and MPEG-1.
• Audio: AAC (also known as MPEG-2 Part 7), MP3 (also known as MPEG-1 Audio Layer 3), MPEG-4 Part 3, MP2 (also known as MPEG-1 Audio Layer 2), MPEG-1 Audio Layer 1, CELP (speech), TwinVQ (very low bitrates), SAOL (MIDI).
• Subtitles: MPEG-4 Timed Text (also known as 3GPP Timed Text).
Some private stream examples include Nero's use of DVD subtitles (Vobsub) in MP4 files.
1.2.5. AUFBAU UND ARBEITSWEISE VON COMPUTERSYSTEMEN
There are two specific requirements which are necessaries for a Computer system:
1. The hardware components are all physical. The hardware leads all functions of a computer system.

2. In order for a computer system, but also the right functions, it must be the appropriate "action rules" to follow.

1.2.5.1. HARDWARE

Computer hardware is the physical part of a computer, including the digital circuitry, as distinguished from the computer software that executes within the hardware. The hardware of a computer is infrequently changed, in comparison with software and data, which are "soft" in the sense that they are readily created, modified or erased on the computer. Firmware is a special type of software that rarely, if ever, needs to be changed and so is stored on hardware devices such as read-only memory (ROM) where it is not readily changed (and is, therefore, "firm" rather than just "soft").
Most computer hardware is not seen by normal users. It is in embedded systems in automobiles, microwave ovens, electrocardiograph machines, compact disc players, and other devices. Personal computers, the computer hardware familiar to most people, form only a small minority of computers (about 0.2% of all new computers produced in 2003).
A typical Personal computer consists of a case or chassis in a tower shape (desktop) and the following parts:
Motherboard
The motherboard is the "heart" of the computer, through which all other components interface.



Typical Motherboard found in a computer


Inside a Custom Computer
Power supply
A case that holds a transformer, voltage control, and (usually) a cooling fan, and supplies power to the rest of the computer.
Storage controllers
Controllers for hard disk, CD-ROM and other drives like internal Zip and Jaz conventionally for a PC are IDE/ATA; the controllers sit directly on the motherboard (on-board) or on expansion cards, such as a Disk array controller. IDE is usually integrated, unlike SCSI which is found in most servers. The floppy drive interface is a legacy MFM interface which is now slowly disappearing. All these interfaces are gradually being phased out to be replaced by SATA and SAS.
Video display controller
Produces the output for the computer display. This will either be built into the motherboard or attached in its own separate slot (PCI, PCI-E or AGP), in the form of a Graphics Card.
Internal storage
Hardware that keeps data inside the computer for later use and remains persistent even when the computer has no power.
Hard disk - for medium-term storage of data.
Solid state drive - a device emulating a hard disk, but containing no moving parts.
Disk array controller - a device to manage several hard disks, to achieve performance or reliability improvement.
Those are some examples of Hardware, but there are a few more.
1.2.5.1.1. Central Unit
The structure of the central unit of a typical personal computer displays fig 1.2/10.
The core unit is the central processor. This in turn consists basically of two components:
The unit collects from memory to perform certain instructions in the machine language, and causes the other components of the computer system to corresponding actions.
The calculator is, as its name suggests, for the arithmetic operations.
Both master and calculator available for their tasks on a small set of extremely rapidly ansprechbaren, sometimes only for special purposes usable memory cells, which are designated as a register.

1.2.5.1.2. Periphery

The periphery of a computer serves three main purposes, the communication with the user, the storage of data over time, and the exchange of data with other computer systems.
A case of Periphery is the printer.
A computer printer, or more commonly a printer, produces a hard copy (permanent human-readable text and/or graphics) of documents stored in electronic form, usually on physical print media such as paper transparencies. Many printers are primarily used as computer peripherals, and are attached by a printer cable to a computer which serves as a document source. Other printers, commonly known as network printers, have built-in network interfaces (typically wireless or Ethernet), and can serve as a hardcopy device for any user on the network.
In addition, many modern printers can directly interface to electronic media such as memory sticks or memory cards, or to image capture devices such as digital cameras, scanners; some printers are combined with a scanners and/or fax machines in a single unit.
A printer which is combined with a scanner can essentially function as a photocopier.
Printers are designed for low-volume, short-turnaround print jobs; requiring virtually no setup time to achieve a hard copy of a given document. However, printers are generally slow devices (30 pages per minute is considered fast; and many consumer printers are far slower than that), and the cost-per-page is relatively high.
In contrast, the printing press (which serves much the same function), is designed and optimized for high-volume print jobs such as newspaper print runs--printing presses are capable of hundreds of pages per minute or more, and have an incremental cost-per-page which is a fraction of that of printers.
The printing press remains the machine of choice for high-volume, professional publishing. However, as printers have improved in quality and performance, many jobs which used to be done by professional print shops are now done by users on local printers; see desktop publishing.
The world's first computer printer was a 19th century mechanically driven apparatus invented by Charles Babbage for his Difference Engine.
In 2007, a study revealed that toner-based printers produced pollution as harmful as that from cigarettes
Printing technology
Printers are routinely classified by the underlying print technology they employ; numerous such technologies have been developed over the years.
The choice of print engine has a substantial effect on what jobs a printer is suitable for, as different technologies are capable of different levels of image/text quality, print speed, low cost, noise; in addition, some technologies are inappropriate for certain types of physical media (such as carbon paper or transparencies).
Another aspect of printer technology that is often forgotten is resistance to alteration: liquid ink such as from an inkjet head or fabric ribbon becomes absorbed by the paper fibers, so documents printed with liquid ink are more difficult to alter than documents printed with toner or solid inks, which do not penetrate below the paper surface.
Checks should either be printed with liquid ink or on special "check paper with toner anchorage".[1] For similar reasons carbon film ribbons for IBM Selectric typewriters bore labels warning against using them to type negotiable instruments such as checks.
Modern print technology
The following printing technologies are routinely found in modern printers, as of April 2006:
Toner-based printers
Main article: Laser printer
Toner-based printers work using the Xerographic principle that is at work in most photocopiers: by adhering toner to a light-sensitive print drum, then using static electricity to transfer the toner to the printing medium to which it is fused with heat and pressure.
The most common type of toner-based printer is the laser printer, which uses precision lasers to cause adherence. Laser printers are known for high quality prints, good print speed, and a low (Black and White) cost-per-copy; they are the most common printer for many general-purpose office applications. They are far less commonly used as consumer printers due to a high initial cost.
Laser printers are available in both color and monochrome varieties.
Another toner based printer is the LED printer which uses an array of LEDs instead of a laser to cause toner adhesion to the print drum.
Recent research has also indicated that Laser printers emit potentially dangerous ultrafine particles, possibly causing health problems associated with respiration. [2] The degree of particle emissions varies with age, model and design of each printer but is generally proportional to the amount of toner required. Furthermore, a well ventilated workspace would allow such ultrafine particles to disperse thus reducing the health side effects.
Liquid inkjet printers
Main article: Inkjet printer
Inkjet printers spray very small, precise amounts (usually a few picolitres) of ink onto the media. These droplets of ink will carry a slight electrical charge. The placement of the ink on the page is then determined by the charge of a cathode and electrode between which the ink moves towards the paper. Inkjet printing (and the related bubble-jet technology) are the most common consumer print technology; as high-quality inkjet printers are inexpensive to produce.
Virtually all modern inkjet printers are color devices; some, known as photo printers, include extra pigments to better reproduce the color gamut needed for high-quality photographic prints (and are additionally capable of printing on photographic card stock, as opposed to plain office paper).
Inkjet printers consist of nozzles that produce very small ink bubbles that turn into tiny droplets of ink. The dots formed are the size of tiny pixels. Ink-jet printers can print high quality text and graphics. They are also almost silent in operation. Inkjet printers have a much lower initial cost than do laser printers, but have a much higher cost-per-copy, as the ink needs to be frequently replaced.
In addition, consumer printer manufacturers have adapted a business model similar to that employed by manufacturers of razors; the printers themselves are frequently sold below cost, and the ink is then sold at a high markup.
Various legal and technological means are employed to try and force users to only purchase ink from the manufacturer (thus leading to vendor lock-in); however there is a thriving aftermarket for such things as third-party ink cartridges (new or refurbished) and refill kits.
Inkjet printers are also far slower than laser printers. Inkjet printers also have the disadvantage that pages must be allowed to dry before being aggressively handled; premature handling can cause the inks (which are adhered to the page in liquid form) to run.
Solid ink printers
Main article: Solid ink
Solid Ink printers, also known as phase-change printers, are a type of thermal transfer printer. They use solid sticks of CMYK colored ink (similar in consistency to candle wax), which are melted and fed into a piezo crystal operated print-head. The printhead sprays the ink on a rotating, oil coated drum. The paper then passes over the print drum, at which time the image is transferred, or transfixed, to the page.
Solid ink printers are most commonly used as color office printers, and are excellent at printing on transparencies and other non-porous media. Solid ink printers can produce excellent results. Acquisition and operating costs are similar to laser printers. Drawbacks of the technology include high power consumption and long warm-up times from a cold state.
Also, some users complain that the resulting prints are difficult to write on (the wax tends to repel inks from pens), and are difficult to feed through Automatic Document Feeders, but these traits have been significantly reduced in later models. In addition, this type of printer is only available from one manufacturer, Xerox, manufactured as part of their Xerox Phaser office printer line. Previously, solid ink printers were manufactured by Tektronix, but Tek sold the printing business to Xerox in 2001
Dye-sublimation printers
Main article: Dye-sublimation printer
A dye-sublimation printer (or dye-sub printer) is a printer which employs a printing process that uses heat to transfer dye to a medium such as a plastic card, paper or canvas. The process is usually to lay one color at a time using a ribbon that has color panels. Dye-sub printers are intended primarily for high-quality color applications, including color photography; and are less well-suited for text. While once the province of high-end print shops, dye-sublimation printers are now increasingly used as dedicated consumer photo printers.
Inkless printers
Inkless printers use paper with colorless dye crystals embedded between the two outer layers of the paper. When the printer is turned on, heat from the drum causes the crystals to colorize at different rates and become visible. The technology was worked on by Zink Imaging and is now available (2007). Because of the way it prints, the printer can be as small as a business card, the images are waterproof, and in fact, one product slated for release by Zink Imaging is a digital camera with a printer built into it. Xerox is also working on an inkless printer which will use a special reusable paper coated with a few micrometres of UV light sensitive chemicals. The printer will use a special UV light bar which will be able to write and erase the paper. As of early 2007 this technology is still in development and the text on the printed pages can only last between 16-24 hours before fading
Obsolete and special-purpose printing technologies
The following technologies are either obsolete, or limited to special applications though most were, at one time, in widespread use. Among these types are impact printers and pen-based plotters.
Thermal printers work by selectively heating regions of special heat-sensitive paper. These printers are limited to special-purpose applications such as cash registers and the printers in ATMs and gasoline dispensers. They are also used in some older inexpensive fax machines.
Impact printers rely on a forcible impact to transfer ink to the media, similar to the action of a typewriter. All but the dot matrix printer rely on the use of formed characters, letterforms that represent each of the characters that the printer was capable of printing. In addition, most of these printers were limited to monochrome printing in a single typeface at one time, although bolding and underlining of text could be done by overstriking, that is, printing two or more impressions in the same character position. Impact printers varieties include, Typewriter-derived printers, Teletypewriter-derived printers, Daisy wheel printers, Dot matrix printers and Line printers.
Pen-based plotters were an alternate printing technology once common in engineering and architectural firms. Pen-based plotters rely on contact with the paper (but not impact, per se), and special purpose pens that are mechanically run over the paper to create text and images.
Only plotters, dot matrix printers, and certain line printers were capable of printing graphics.
Typewriter-derived printers
Main article: Friden Flexowriter
Main article: IBM Selectric typewriter
Several different computer printers were simply computer-controllable versions of existing electric typewriters. The Friden Flexowriter and IBM Selectric typewriter were the most-common examples. The Flexowriter printed with a conventional typebar mechanism while the Selectric used IBM's well-known "golf ball" printing mechanism. In either case, the letter form then struck a ribbon which was pressed against the paper, printing one character at a time. The maximum speed of the Selectric printer (the faster of the two) was 15.5 characters per second.
Teletypewriter-derived printers
Main article: Teleprinter
The common teleprinter could easily be interfaced to the computer and became very popular except for those computers manufactured by IBM. Some models used a "typebox" that was positioned (in the X- and Y-axes) by a mechanism and the selected letter from was struck by a hammer. Others used a type cylinder in a similar way as the Selectric typewriters used their type ball. In either case, the letter form then struck a ribbon to print the letterform. Most teleprinters operated at ten characters per second although a few achieved 15 CPS.
Daisy wheel printers
Main article: Daisy wheel printer
Daisy-wheel printers operate in much the same fashion as a typewriter. A hammer strikes a wheel with petals (the daisy wheel), each petal containing a letter form at its tip. The letter form strikes a ribbon of ink, depositing the ink on the page and thus printing a character. By rotating the daisy wheel, different characters are selected for printing.
These printers were also referred to as letter-quality printers because, during their heyday, they could produce text which was as clear and crisp as a typewriter (though they were nowhere near the quality of printing presses). The fastest letter-quality printers printed at 30 characters per second.
Dot-matrix printers
Main article: Dot matrix printer
In the general sense many printers rely on a matrix of pixels, or dots, that together form the larger image. However, the term dot matrix printer is specifically used for impact printers that use a matrix of small pins to create precise dots. The advantage of dot-matrix over other impact printers is that they can produce graphical images in addition to text; however the text is generally of poorer quality than impact printers that use letterforms (type).


A Tandy 1000 HX with a Tandy DMP-133 dot-matrix printer.
Dot-matrix printers can be broadly divided into two major classes:
Ballistic wire printers (discussed in the dot matrix printers article)
Stored energy printers
Dot matrix printers can either be character-based or line-based (that is, a single horizontal series of pixels across the page), referring to the configuration of the print head.
At one time, dot matrix printers were one of the more common types of printers used for general use - such as for home and small office use. Such printers would have either 9 or 24 pins on the print head. 24-pin print heads were able to print at a higher quality. Once the price of inkjet printers dropped to the point where they were competitive with dot matrix printers, dot matrix printers began to fall out of favor for general use.
Some dot matrix printers, such as the NEC P6300, can be upgraded to print in color. This is achieved through the use of a four-color ribbon mounted on a mechanism (provided in an upgrade kit that replaces the standard black ribbon mechanism after installation) that raises and lowers the ribbons as needed. Color graphics are generally printed in four passes at standard resolution, thus slowing down printing considerably. As a result, color graphics can take up to four times longer to print than standard monochrome graphics, or up to 8-16 times as long at high resolution mode.
Dot matrix printers are still commonly used in low-cost, low-quality applications like cash registers, or in demanding, very high volume applications like invoice printing. The fact that they use an impact printing method allows them to be used to print multi-part documents using carbonless copy paper (like sales invoices and credit card receipts), whereas other printing methods are unusable with paper of this type. Dot-matrix printers are now (as of 2005) rapidly being superseded even as receipt printers.
Line printers
Main article: Line printer
Line printers, as the name implies, print an entire line of text at a time. Three principal designs existed. In drum printers, a drum carries the entire character set of the printer repeated in each column that is to be printed. In chain printers (also known as train printers), the character set is arranged multiple times around a chain that travels horizontally past the print line. In either case, to print a line, precisely timed hammers strike against the back of the paper at the exact moment that the correct character to be printed is passing in front of the paper. The paper presses forward against a ribbon which then presses against the character form and the impression of the character form is printed onto the paper.
Comb printers represent the third major design. These printers were a hybrid of dot matrix printing and line printing. In these printers, a comb of hammers printed a portion of a row of pixels at one time (for example, every eighth pixel). By shifting the comb back and forth slightly, the entire pixel row could be printed (continuing the example, in just eight cycles). The paper then advanced and the next pixel row was printed. Because far less motion was involved than in a conventional dot matrix printer, these printers were very fast compared to dot matrix printers and were competitive in speed with formed-character line printers while also being able to print dot-matrix graphics.
Line printers were the fastest of all impact printers and were used for bulk printing in large computer centres. They were virtually never used with personal computers and have now been replaced by high-speed laser printers.
The legacy of line printers lives on in many computer operating systems, which use the abbreviations "lp", "lpr", or "LPT" to refer to printers.
Pen-based plotters
Main article: Plotter
A plotter is a vector graphics printing device which operates by moving a pen over the surface of paper. Plotters have been (and still are) used in applications such as computer-aided design, though they are being replaced with wide-format conventional printers (which nowadays have sufficient resolution to render high-quality vector graphics using a rasterized print engine). It is commonplace to refer to such wide-format printers as "plotters", even though such usage is technically incorrect.
Other printers
A number of other sorts of printers are important for historical reasons, or for special purpose uses:
Digital minilab (photographic paper)
Electrolytic printers
Microsphere (printer) (special paper)
Spark printer (supplied for Sinclair ZX81)
brand printer uses heat to print barcodes
Printing mode
The data received by a printer may be:
a string of characters
a bitmapped image
a vector image
Some printers can process all three types of data, others not.
Daisy wheel printers can handle only plain text data or rather simple point plots.
Plotters typically process vector images.
Modern printing technology, such as laser printers and [brands printet]]s, can adequately reproduce all three. This is especially true of printers equipped with support for PostScript and/or PCL; which includes the vast majority of printers produced today.
Today it is common to print everything (even plain text) by sending ready bitmapped images to the printer, because it allows better control over formatting. Many printer drivers do not use the text mode at all, even if the printer is capable of it.
Monochrome, color and photo printers
Main article: Photo printer
A monochrome printer can only produce an image consisting of one color, usually black. A monochrome printer may also be able to produce various tones of that color, such as a grey-scale.
A color printer can produce images of multiple colors.
A photo printer is a color printer that can produce images that mimic the color range (gamut) and resolution of photographic methods of printing. Many can be used autonomously (without a computer), with a memory card or USB connector.
The printer manufacturing business
Often the razor and blades business model is applied. That is, a company may sell a printer at cost, and make profits on the ink cartridge, paper, or some other replacement part. This has caused legal disputes regarding the right of companies other than the printer manufacturer to sell compatible ink cartridges.
Printing speed
The speed of early printers was measured in units of characters per second. More modern printers are measured in pages per minute. These measures are used primarily as a marketing tool, and are not well standardised. Usually pages per minute refers to sparse monochrome office documents, rather than dense pictures which usually print much more slowly. PPM are most of the time referring to A4 paper in Europe and letter paper in the US, resulting in a 5-10% difference.
Forensic identification

Similar to forensic identification of typewriters, computer printers and copiers can be traced down by imperfections in their output. The mechanical tolerances of the toner and paper feed mechanisms cause banding, which contain information about the individual device's mechanical properties. It is sometimes possible to identify the manufacturer and brand, but in some cases the individual printer can be identified from a set of known ones by comparing their outputs. [4] [5]
Some high-quality color printers and copiers steganographically embed their identification code into the printed pages, as fine and almost invisible patterns of yellow dots. The sources identify Xerox and Canon as companies doing this [6] [7]. The Electronic Frontier Foundation (EFF) has investigated[8] this issue and documented how the Xerox DocuColor printer's serial number, as well as the date and time of the printout, are encoded in a repeating 8×15 dot pattern in the yellow channel. EFF is working to reverse engineer additional .

1.1.4.Software ergonomics

The software ergonomics deals with the adjustment of Benutzerschittstelle to the people and its peculiarities in receiving and processing information and knowledge.Software ergonomics is a science in which evidence from psychology, industrial science and the science together led, in order to systematically design goals for tasks appropriate and user-human-computer systems to work.
Three design fields are in the framework of software ergonomics important: the labor system, the dialog behavior and the input / output behavior of computer systems.They determine the user interface for the user than the visible part of an interactive system.

1.1.5 Interaction Techniques

Over time, a number of techniques have emerged Interaction.Their use is primarily dependent on the hardware, software and usage of the situation.
The interaction of the user with the computer is dialogue, there is a mutual exchange of information between the two plays.A specific change has been exacerbated by the personal computer and the capacity of the systems multitasking allowing the user can simultaneously carry a wide variety of actions.Regarding a dialogue with the old thread interplay of dialogue.

1.1.5.1. Command Language

A command language is a formal language for the formulation of orders to the computer. For each contract will require information such operation, in text form.Missing information will be supplemented by standard values, which are fixed or current condition to be removed.

-Major design issues for command languages are:
a)The application design vocabulary
b)The design of abbreviations based on uniform and simple rules
c)The single syntactic structure of commands
d)The comprehensive description of the linguistic expression of possibilities

-Advantages:
a)They require no special input devices, which are usually available keyboard
b)They allow the easy recording of past
c)The experienced user can very quickly and efficiently work
d)There are powerful commands feasible

-disadvantages
a)High learning, especially for novice and occasional users. It is a use without knowledge of the syntax is not possible.
b)The input is error-prone because commands and parameters need to be reminded
c)Because of the impact area commands of the entire state of the interactive system, it is difficult, the effects of a commando directly control

1.1.5.2. Menu

Through menus, the selection of actions defined in scope.The user chooses from a list of the desired command, which is executed by the computer.If parameters or settings are needed for entering a corresponding further dialogue open.Different types of menus are: permanent fully or partially visible menus and menus displayed on request.For the usability of the menus is their structuring important, it can be a menu item in turn is a sub-menu.This structure can be used in the width and depth.

-Advantages
a)Easy to learn, since commands recognized, and not have to be reminded.
b)Low error rate, since in principle for a command no errors are possible.

-Disadvantages
a)For experienced users is cumbersome to operate and lasts long
b)The menus are superimposed Anwedungsinformationen

1.1.5.4.Direct manipulation.


This dialog is based on the style exist an instrument show how z.b. The Maus.Der dialog is similar to natural negotiations, it is an object and then select the desired possible negotiations on this subject.


Advantages:

-Low-lernauf wand, as the use in many cases intuitively possible.

- Through the use of known metaphors is a faster erlernbarkeit by the tying of new and old know promoted.

-He is a fast efficient use of the systems is reached, which even for experts in the cases is sufficient.

-Promotion of exploratory learning, it is the users fear a possible use, which his competence-and kontroll awareness increased.

Disadvantages:

- Inexperienced users need only show the use of the instrument to learn.

- Inadequate analogien between the routine and know the realization comes to metaphor breaks.

- Through the use intuitive ability is the acquisition of specific knowledge, in many cases prevented.

Graphical interface benut.

Graphical interface benut Often in a breath with the direct manipulation Grande, but usually in a mixture of rankig interaktions techniques.

1.1.5.5.1. leitideen.

The leitideen for graphical benut zero over surfaces.

Users control .
visuella show and also kontroll possibility of automatic transactions, feeling of control.


Feedback.

Echo or any reaction to provide input,
- Pointer changes form
-Object-changing look.
-Menu entry is pale, if not selectable.
-Sattus-row shows progress by the bar or length files.
-Over-view window shows chrittan forts.
- Window event.

Directness.

Visualles equivalent of the data and functions to show.
Use of logic metephern
Examples: desk with benches, entr skorb, bin, mappen.
Advantages: user has information about sinn and function of the object.

Consistency.

Similar situations
Out-of selectable menu also show.
Data secure document print: always file from choice or always without.

Simplicity.

Short messages and commands.

Aesthetics.

A conflict vitlab.m, vs. functionality. Beauty.


Benutzeroberflächen graphical elements.

Fenster.

The screen can be divided into several excerpts, which refers to as a window warden .Fenster are rectangular and graphically by seuten pointers begrenzt .Fenster allow control of multiple, overlapping one another kepekchirmausschinitte, which work directly excerpts users can be assigned.


The following operations window systems should be made available:
- Create.
- Delete.
- Open: opens a window in a reduced representation, such as pictograms or bar graph.
- Close: 1 Fenstre reduced to a pictogram or Blaken.
- Move: Allowed moving (pulling) of a window on the screen without the size of the window to change.
- Resize: dirce a size variation of the window.
- Full Size: The maximum allowed immediately extend a window.
- Small Size: a window directly reduced to its minimum size.
- Scroll: lets the window vertically or horizontally happen ...
- Define: allows the definition of a window.
- Bring-to-front: takes the selected window in the foreground image (for overlapping windows).
- Sent-to-back: moves the selected window in the background (with overlapping windows).
- Menu bar: often at the top level windows
- Pull-down menu is visible, unless or until mouse is pressed for example On menu bar anchored. It opens to the bottom, when you move the mouse pointer over the menu title runs.
- Drop-down menu appears, without that mouse button, the cursor will only object moving.
- Context menus: A pop-up can only be in the places in an application to be opened where it makes sense. It can be special tools or a command selection, which in this section of the software can be used and can be anywhere on the screen.

Symbols (icons)

Graphic symbols, the use of computers, instruments, but also with graphical display. The SYmbole represent different objects, such as documents, windows, actions, ...

Icons are used for the representation of:
Components
Processes
Expiration end processes with the possibility of interference

Buttons

Command button to play an important role in the interaction between humans and computers. Command buttons are available as Cancel, OK or command button available.
Check boxes are a way to select any one or more options to realize.
Option buttons can always just one of several

Dialogboxen

TextBox: It serves to enter alphanumeric data on the keyboard or the clipboard to a program. Input fields can occur in several variants: Single line or multiline, scrollbars can optionally be displayed, the maximum length of text can be set.
Listbox is used to give the user the ability to give out a list oedr several items.

Leisten (Bars)

Toolbar is composed of one or several buttons, for example, performed to edit files such as Save, Open.
StatusBar is used to provide information about the status of an application.
Progressbar is used to inform the user about the progress of a process to inform.
Register consists of one or more flaps, which always can be selected.
Slider will find their application, where the user has a value of a fixed set of numerical values linearly arranged with constant Abstënden.

Ansichten

Baumansicht is used to collect data in a tree structure. Example of this is the file system. These nodes can be further nodes and leaves. Leaves are node, the node no further information.
Listenansicht is used by several elements. It is possible to select multiple columns and graphics for the elements firmly.

Dialogues

During the dialogue and interaction management, the intuitive operation of the user support:
Ideally, the user should be to him on the screen just as well-known symbols real objects can be manipulated.
Where object-action principle: Only select object, then the object for the kinds of actions an action.
Order input masks in traditional programs will be rigidly set, the program guides the user that he has less Freihieten.

Following the book, we can speak about next things:

1.1.2.3.3.Digital kamera.

A digital fotokamera draws pictures and stores them in digital form. The individual images are usually on the pc, where they are processed, stored and printed.
Important selection criteria for digital camera:

-Resolution.
-Compression.
-Length.
-Zoom.
-Picture capacity.
-Lcd-monitor.
-Interface.

Digital camcorder:

When recording with dv-camcorder are two important things: One is the recording sensor supplied by the picture digital This means that a special chip in the camera, the colors and speed lim every single point in the video image into a pay values translated. Since the quantity of such data videofilmes with his 25 pictures per second, however, would be too high for them to the relatively small and slow in the current magnetband dv-kassette disk, you will not only pay for conversion into digital values But simultaneously a compression of images.
These cameras have:
-Resolution: The digital video images from a dv-kamera bestteht from 720 * 576bild points, for a total of 414,729 pixels.
-CCD-anzahl: Most of your camcorder for the amateur range ccd-sensor have a few models in the area have opposed semi over 3 ccds.

Webcam

A webcam is a video camera, which happens to komminikation used the internet.

1.1.2.4.Acoustic input


The processing of audio information is similar to that of image over informationen.Diese task usually the computers a sound card, but when the analog input to digital information is converted and in a rückum wandlung issue.
The processing of naturally spoken speak divided into two part resort:

-Spracher identification: It should be noted, was speaking wurde.bestimmte muster by comparison must recognize and be processed.

-Identification sprecherer this involves the investigation who spoke. The basis of the language sounded bildes we checked who the speakers.

1.1.3. From relea


1.1.3.1. Bildchirm


The bildchirm is one of the most commonly used ausga begeräte, the data are used for the eye temporarily visible on screen. In order for the monitor knows what he represented, he gets his signals from the graphics card in the pc as picture signals and synchronisations signals, which the vertical and horizontal control Aurich Tung

The main male merk schimkarte are the picture resolution, bit depth and performance of analog digital-wanslers

Today monitors use different techniques to display images from the characters; As cathode ray tubes, liquid crytall displays (lcd) us plasma screens.


Kathoden beam tube (ctr): it is the most common used anzeige.die crt is a vaku to glasröhre electrons with a gun on one side and a materials coated with phosphorescent screen on the other seite.wir electrons gun at the electrical voltage applied, creates a electrons flow, bundled into a beam.

Liquid crystal display (LCD):In enclosed glass surfaces substances get through a voltage other optical properties, it is between light transmittance and light changed, allowing the viewer a controlled pixel light or dark.
Control is generally through a matrix of electrodes, but it can also use laser beam heats the liquid crystals, and thereby increase the polarization behavior changed. LCD screens are very shallow water, have a low weight and low power consumption.
In LCD-Schirmen active, the individual pixels on thin-film individually activated. The result is a spicy, flicker-free image (even at low refresh rates). The color calibration for the printing technology is hardly possible.

Plasma screen: it consists of two glass plates between which ionized gas (plasma) is included. In one of the glass plates are thin, horizontal energie, in the other glass plate vertical.
Plasma monitors are flat and very easy (for example, is a 53 cm-Bildschirm only 6 cm thick and weighs just a few kilograms)
Plasma screens are still expensive, have a high power consumption, as compared with cathode ray monitors a low resolution and colour depth.
Die optische Qualität der Bildschirmanzeige wird durch folgende Faktoren bestimmt:

Bildchirmgrösse: The required size of the screen depends on the specific task. Graphical tasks require a larger screen than tasks, which with text or numbers worked.

Resolution: It is in the horizontal and vertical direction represented the total number of pixels.

Color Display: The display of colors, depending on the ranges used video and graphics cards from monochrome to con millions of colors.

Bildwiederholffrequenz: The image reconstruction wood frequency depends on the post-burn time of phosphorus.
The screen surface: The surface should be possible choices, screen devices are set up so that no barrier or light sources into their clippings. The contrast between characters and background should be freely adjustable and between 1:5 to 1:5.
The higher the resolution, color depth and refresh rate, the greater are the demands on the graphics card.


1.1.3.2.DIGITALPROJEKTOREN .

The development of LCD projectors similar to that of slide projectors, instead of a slide, a backlit LCD panel and with the help of a lens projected on the wall. This one makes you look at the effect of the birefringent optical effect of the liquid crystals when a voltage to use.
Established data projectors for the presentation of computer and video images, but also in the entertainment electronics find it more and more.
The quality of the projector is determined by the brightness of the resolution, as well as equipment such as interfaces, as Zusatzaeinrichtungen laser pointer, speaker.
Looking at the trends in the graphic output, it shows a tendency for one reduction in the form of so-called Microdesplays project.
On the other sides tries, three-dimensional objects on display screens.


1.1.3.3. PRINTERS


Printers are output devices that are visually represented data on print makers spend. By contrast, the production data visually legible. It distinguishes between attack printers and stop free printers. Stop pushers bring the color by mechanical shock to the paper. The impact printer without mechanichen attack, they are much quieter, but no blueprints.

Thermal printer
Wärmeempfindliches paper is a matrix of Heitzstäben to the respective agencies erwämt. The paper wärmmeemppfindliche reagiertr to mechanical pressure and is not filing for longer suitable.

InkjetPrinters

For small jets will be in a matrix, or by direct diversion of the jet ink on an absorbing paper axes. The advantage of inkjet printers is an almost silent operation with good quality printing in color. The print speed is between 2 and 20 pages per minute.

Laser Printers

The operation is similar to a photocopier, the print quality of laser printers is very good, the printing speed is very high.

Color Laser
The laser printing with full-color, as in the offset printing with four colors and requires four printing stations to raise the toner to the print medium.

1. Grundlagen der Informationsverarbeitung

The first part is busy with the representation of information in computer systems. Besides, these also become units for the amount in information like the Beispeil for the storage capacity aingeführt.

The second part Is about approach of computer systems. Among other things it is explained here which factors determine the speed of a computer system.

The third part presents finally the usual warehouse media and their typical qualities.

1.1 Benutzerschnittstelle

The user interface is for the user visible part of the interaction interface of a software product.This includes all units, forms and techniques through which the user with the computer system communicates.This user interface is to a certain extent dependent on the hardware and the operating software of the system and of course directly dependent on the use of application software.
Under user interface are all those parts of a computer system, taken together, the user can perceive.The user interface is primarily a function of available inputs and output devices, and in addition, the associated software;Under user interface is both hardware and software.The user interface defines largely determine how the user with a system that can work.The design must be governed by the respective addressees district judge, according to his requirements, his habits and his skills.
The user interface with many factors determine the shape of the interaction between the user and the computer system.The human-computer interaction is a mutual exchange of information between the user and the system, this is the nature of things is usually bound and formalized, at least in modern interktiven systems is the control in the Regal case the user

1.1.2 Input

Visual elements have a perceptible physical shape, in contrast to the acoustic and tactile elements in the time running, volatile processes.On the input side keyboards and pointing devices than traditional instruments available.Detection devices for Hand-Kopf-Augen-und body movements occur in the form of data gloves, helmets and Datenanzügen or camera configurations.For the audio input will be used microphones.

1.1.2.1.Keyboard

Keys are entering elements that allow a fixed alphabet characters enter.The signs must not required letters or numbers, but it can also include other symbols.
In the case of a standard PC keyboard today is a micro-processor that to the change in the river flow recognizes what button is pressed, for example, has been released.The microchip the keyboard transmits a code that identifies the button on the machine.The basic input / output system of the computer converts the code into the computer used by the character set and writes about it in an `S peicherpuffer from which the operating system can read the sign.

By the nature of the data to different man:Numeric keyboard, alphanumeric keyboard, function keyboard, layered keyboards.

With an ergonomic design of the work place should be independent of the keyboard and screen freely movable.The arrangement of the keys according to the standard typewriter, which is distributed internationally.The function acts are the work task and lift divided by color, shape and arrangement.

In selecting the keyboards following points should be observed:
a)The keyboard is very flat front, so that the ball can be laid out
b)Allow a fold-out stand ergonomic list
c)The individual keys are curved inwards, so that the security meeting will be heard
d)The keyboard may not reflect
e)The keys have a significant pressure point
f)The keyboard should not slip
g)And finally, the keyboard stable, heavy keyboards are therefore preferable



-Laser keyboard
A laser on a tabletop or other opaque flat surface a keyboard layout in a size of approximately 241 x 106 mm.Infrared sensors touch from the finger movements and set them in order Keystrokes.The Erkennungsprinzio based on the fact that the infrared layer interrupted, the resulting UV-Reflektion generated by the sensor detected in 3 dimensions and coordinates assigned.

1.1.2.2. Showing instruments

The function of the finger and Positioniergeräten is finding through to including the selection of visual information or pictured visualized objects on the user interface of Elle, and possibly their Positonierung.It can be one or several selected objects to be manipulated.
At devices will show the movements of the device into electrical signals, as a coordinate pair weiterverarbeit and according to the location of a point on the screen.Once the device is tampered with, altered its position of the cursor on the screen

1.1.2.2.1. Mouse

A mouse is an input device, the two-dimensional movement on a flat surface of a Positioierungsmarke is tracked on the screen.It has triggering selektierne with which the objects can be activated.With the use of graphical user interfaces, the mouse as an input tool widely distributed.

Advantages: Advantages of the mouse you are fast and simplified command input to the keyboard.The precise positioning can be the smallest bodies characters on the screen respond, which is also the suitability for graphical applications.From the manufacturer is preisgüngstige and offers an extensive "mouse-compatible" software offering.

Disadvantages:The disadvantages of the mouse are initial coordination problems of the eye and hand, which is not always want to Vërfügung standing flat surface, and pollution and wear and tear (especially for mechanical mice)



1.1.2.2.2. Trackball

The roller ball is an input device like a mouse, the ball rolling on the surface and is located about one-third is visible.To control the Coursors is just the ball with the fingers moving without the ball rolling housing moves.With the rolling ball is a simple, lightning and exact positioning possible, but it is getting used.Use of the trackball finds especially notebooks.

1.1.2.2.3. Accessibility for notebooks

Since laptops are often used mobil, we tried dei number of the devices for the operation to a minimum.Furthermore, it is not always just a space for the operation of the mouse is available.

1.1.2.2.4. Joystick and Gamepad

The joystick is a joystick, with a large number of input keys, whose motion in two axes, and to a cursor controls.It is frequently used in computer games.Depending on the position change is another resistance value produced, the size of the computer, as he controlled the figure to steer.The force-feedback technology, the joystick reacts mechanically via a back-channel signals generated by the computer.With this joystick, for example, users of racing simulations, the forces of a car as a real benefit.

A gamepad is an input device, which looks like the joystick funktionsähnliche especially for the control of computer games thought.A gamepad is in its simple form a handy device that is usually on the left side of a tax Cross and on the right side of a series of buttons, which vary depending on the game shows.The domain of the Game Pads is therefore especially actionlastige games, a precise, catchy require control.For game consoles, the game pad is the most important and often the only input device.



1.1.2.2.5. Data Glove

With the Data glove covered with appropriate sensors, the movements of the fingers and hands and reconstructed so that the movements of the hand.He is displaying an input device, with the man three-dimensional objects in virtual spaces can manipulate.You can be a virtual hand grip, rotate, move; You can even take a pen and write with him.Unlike the mouse and other input devices, the data glove, is a much dimensionally input device.

During the lesson we spoke also about the Sensorbildschirm and the lightpen, but they are not the main elements.

1.1.2.3.Input image information

With the input of image data can be made between the collection of standing and moving images.When entering a standing image, the image point by point and scanned into a computer graphic format of the converted.The resulting image can be processed, embedded in the text and sent electronically.

1.1.2.3.1.Scanner.

Bildein scanner are times in which an image or a text lines - and pointwise scanned wird.ein lichtstrahl (laser) scans the various points of the presentation to register and you lim lihood speed differences, which in digital form as a raster image can be stored.
The gas can be scanned image point would bear more involved, regardless of whether it is text or a picture. Text, with a scanner were scanned, with texter detection programs to be processed.
Because of the design contrast, the sign with a stored template and compared to the corresponding characters transformed.

Following devices ty groups can be distinguished:

-Flat bed scanner.
-Handscanner.
-Stab- details or scanner.

Important criteria for selection of scanners:
-Gray depth.
-Maximum resolution.
-Schitts tellen.
-Auxiliary software included.
-The maximum available large.


1.1.2.3.2. Readers

Schriftenleser optical or magnetic recognize the importance of individual, the number of stored data sources and then automatically processed in encoding. These are pre-defined areas of the disk evaluated, in which the characters in machine-readable form. The layout of the data carrier is not covered.
Klarchriftbelege are both mechanically than with the eye-readable paper documents. The writings are normalized, in Scanners characters are optically read. The signals are received by a target set of patterns and each character is assigned to the appropriate importance.
Manuscript readers: manuscripts are sometimes difficult for people to see for machines is the identification process even more difficult. Handwriting readers evaluate only Blockbuchstabenaus.
Bar code readers: characters, primarily digits, in the form of strong among different bars. As an information carrier serves to paper in the form of labels or the packaging. With the help of a scanner will read the bar code and CNC processed. For humans is the bar code unreadable.

Hallo!
Meine Name ist Julio Munuera. Ich bin ein Austauschüler, der aus Sevilla kommt. Ich studiere Business und Recht in der Universität "Pablo de Olavide", in Sevilla. Ich werde in Linz für zwei Semester sein und werde in "Johannes Kepler Universität" studieren. Ich freue mich gerne darauf, dass ich die Möglichkeit habe, verschiedene und internationale Leute kennenzulernen, also ich denke, es ist sehr possitiv für mich. Ich hoffe schöne Leute und Plätze kennenzulernen.
Ich möchte ein bisschen über meine Stadt, Sevilla, erzählen.





Es ist eine schöne Stadt im Süden Spanien. Ich habe da mein Ganzes Leben gewohnen, und glaube es ist eine sehr interessante Stadt, wegen seines schönen Sehenswürdichkeiten und Gechichte. Es ist besonders wichtig die Kathedral, die eine von den grossten aller Welt ist. Wir haben auch die Giralda, eine Arabische Turm, die in Mittelalter gebaut wurde, und es ist die grosste Gebäude der Stadt. Es steht neben der Kathedral.





In manche Plätze, die Stadt sieht wie eine arabischer Stadt aus. Das ist aber normal, weil die Musulmäner für viele Jahren da waren. Nach diesem Jahren erobern die katholischen Könige von Castilla ganzen Andalusien zurück und die Mussulmäner mussten weggehen. Wegen diesen Zeiten, gibt es in Sevilla viele arabischer Architektur und auch eine sehr schöne Stadteil, das heisst "Barrio de Santa Cruz". Diese Stadteil befindet sich im Zentrum und hat die typische arabische Architektur, mit engen Strassen, sehr schöne Quellen, viele Orangenbäume und kleine Baren, wo man "Tapas" essen kann. Es ist eine der tourischtichsten Teilen der Stadt.







Ein sehr wichtiges Teil der Stadt ist auch den Fluss. Es heisst "Guadalquivir". Eigentlich ist es den richtigen Fluss nicht in Sevilla, weil nur ein Kanal haben. Heutzutage, hat es nicht zu viele Aktivitäten, aber in Mittelalter, Sevilla hatte den wichtigsten Haffen ganzes Europa. Wie gesagt, heutzutage ist Komerz nicht so wichtig und der richtige Fluss liegt nicht in Sevilla, wo es nur ein Kanal gibt.





Nach diesem Inhalt über meine Stadt, würde ich ein bisschen über mich erzählen. Ich wohne mit meinen Eltern und meinem Bruder,der auch für einen Jahr in Johannes Kepler Universität studierte. Ich bin 22 Jahre alt und liebe Sport machen. Ich kann nicht sehr gut Deutsch, deswegen habe ich Österreich um ein Erasmus zu machen ausgesucht. In JKU werde ich Business studieren und habe einige Deutsche Englischce Kurse.
Eine von diesen Deutschen Kurse ist Informationsverabeitung I. Ich habe eine sehr interessante Aufgabe für diese Kurs, und ich denke, es ist eine sehr originalles Idee: ich muss einen Blog schreiben, wo ich meine Kenntnisse der Kurse zussamenfassen soll. Ich werde mit den ersten Tag anfangen.