Reference no: EM1383512 , Length: 2-3 Pages
Keyboards, microphones, and mice have generally been used as the standard input devices for most computer systems. The popularity of video and computer games has led to the introduction of input devices beyond the standard input devices. Players have wanted to remotely interact with a game without having to be tethered to a computer system or game console. Accelerometers, gyroscopes, and sensors have made it possible for players to use gestures to interact with a game or non-game applications. Computer systems now have other types of input data that need to be interpreted when a computer user or game player makes gestures remotely in front of a computer or game console.
For example, doctors use Kinect gestures to scroll through X-Ray images on large screen displays while performing surgery without having to touch any computer keyboard or mouse.
Write a two to three (2-3) page paper in which you: Compare how the gestures data is generated and represented for interpretation in each of the following input devices. In your comparison, consider the data formats (radio waves, electrical signal, sound, etc.), device drivers, operating systems supported, and interoperability between devices. Microsoft Kinect Wii remote Smartphone accelerometers Explain how each of the following input devices detects and generates a depth map in order to detect the location of the user. (Hint: Depth-aware cameras for input.) Microsoft Kinect Wii remote Smartphone accelerometers Some industrial controls, automated manufacturing robots, and control systems depend on sensor generated and accelerometer data during processing.
Analyze the accuracy of the input generated by each of the following input devices compared to electrical signals based methods of processing. Microsoft Kinect Wii remote Smartphone accelerometers Select one of the three devices (Microsoft Kinect, Wii Remote, or Smartphone accelerometers) that you believe provides the best accuracy and explain why. End users may be concerned with the safety of Microsoft Kinect, the Wii remote, or Smartphone accelerometers. Suggest ways of making these devices safe for industrial control systems, production robots, and other business applications that use sensors and accelerometers.
Use at least three quality resources in this assignment.
Referencing style - APA style
|
Find which domain name is available for company
: Suppose the role of the IT consultant to new nonprofit organization, Free Flu, which provides flu shots to elderly. Organization requires a domain name. Use Internet resources to find out which domain name is available to company.
|
|
Bodys oxidation of glucose
: The body’s oxidation of glucose is commonly described as the burning of fuel. Is this analogy correct? Explain your answer.
|
|
The structure of biological membranes
: The structure of biological membranes is estimated primarily by the lipid bilayer but the specific functions of these membranes are carried out through proteins associated with the membrane.
|
|
Benign prostatic hyperplasia
: Mr. X, husband of Mrs. X, has just been diagnosed with benign prostatic hyperplasia (BPH). He has been set down a drug in the same category as prazosin named tamulosin
|
|
Compare how the gestures data is generated and represented
: Analyze the accuracy of the input generated by each of the following input devices compared to electrical signals based methods of processing
|
|
Organism the genotype dd
: For a particular trait, an organism has the genotype Dd. Based on this information you can be certain that:
|
|
Largest acceptable value of distance for removing a nail
: To remove a nail, a small block of wood is placed under a crowbar, and a horizontal force P is applied as shown. Knowing that the maximum vertical force needed to extract the nail is 2600 N and that the horizontal force P is not to exceed 290 N, d..
|
|
Existing equal tangent sag curve
: An overpass is being built over the PVI of an existing equal tangent sag curve. The sag curve has a 70 mi/h design speed, and G1 = -6%, G2 = +3%.
|
|
Travel of particle during time period
: Determine the acceleration when t = 4 s, the displacement from t = 0 to t = 10 s, and the distance the particle travels during this time period.
|