Answer:
Classification.
Explanation:
Classification is the wide field of data mining apps that analyzes data and establishes rules for making a distinction in specified classes.
Data mining is a method that corporations use to transform the raw information into valuable information. Corporations can understand something about their clients through using technology to identify trends in large quantities of info to create more successful marketing campaigns, increase revenue and reduce costs.
Answer:
Given,
Screen resolution= 1024 x 512 pixels | (m x n)
1024 pixels is the size of the horizontal direction i.e length
512 pixels is the size of the vertical direction i.e breadth
Total pixels in the screen are = (1024*512) = 524288
The size of frames equal to the 524288 pixels.
Refresh rate of the screen =60 frames/second
So, the total number of Pixels per second = 524288*60 = 31457280 pixels/second.
We want to display 1 row of pixels,or we can say 1024 pixels as 1024 pixels is the size of the horizontal direction i.e length.
Seconds = (1024 pixels)/(31457280 pixels/second)
=0.00003255208 seconds
A frame is one of the pictures, and the frame rate is a frequency metric,how often a fresh frame updates the video. This translates into the frequency at which the game redraws the picture on the screen for video games. Frame rate per second (fps) is measured in frames.
Smart technology and stations
Answer:
TDL(Tactical Data Link).
Explanation:
TDL is the authorized, formalized communication connection for electronic information transfer and it is identified by formalized communication types and transmitting features.
It is used by the join staff for the standardized connection or also for the communication.
So, the following answer is correct according to the scenario.
Answer:
a) Yes
b) Yes
c) Yes
d) No
e) Yes
f) No
Explanation:
a) All single-bit errors are caught by Cyclic Redundancy Check (CRC) and it produces 100 % of error detection.
b) All double-bit errors for any reasonably long message are caught by Cyclic Redundancy Check (CRC) during the transmission of 1024 bit. It also produces 100 % of error detection.
c) 5 isolated bit errors are not caught by Cyclic Redundancy Check (CRC) during the transmission of 1024 bit since CRC may not be able to catch all even numbers of isolated bit errors so it is not even.
It produces nearly 100 % of error detection.
d) All even numbers of isolated bit errors may not be caught by Cyclic Redundancy Check (CRC) during the transmission of 1024 bit. It also produces 100 % of error detection.
e) All burst errors with burst lengths less than or equal to 32 are caught by Cyclic Redundancy Check (CRC) during the transmission of 1024 bit. It also produces 100 % of error detection.
f) A burst error with burst length greater than 32 may not be caught by Cyclic Redundancy Check (CRC) during the transmission of 1024 bit.
Cyclic Redundancy Check (CRC) does not detect the length of error burst which is greater than or equal to r bits.