How do the components and processes of communication apply to the electrnic/computer channel?
We have to be very careful how we word things if we are not face to face. Since we lack eye contact and body language, the words themselves are all-important.
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Oh ok I get it now your the best thanks
Good! :-) You're welcome.
In the context of electronic/computer communication, the components and processes of communication can be applied in the following way:
1. Sender: The sender refers to the person or system that initiates the communication. In electronic/computer channel, the sender can be a computer or any electronic device that generates and transmits data.
2. Encoding: Encoding involves converting the message into a format that can be transmitted. In electronic communication, the message is encoded into binary code (0s and 1s) which represents the information in a digital form that can be understood by computers.
3. Channel: Refers to the medium through which the message is transmitted. In electronic communication, the channel can be wired or wireless networks, such as Ethernet cables, Wi-Fi, or cellular signals.
4. Decoding: Decoding is the process of converting the transmitted message back into a readable format. In electronic communication, the receiving device (such as a computer) decodes the binary data received and extracts the original message from it.
5. Receiver: The receiver is the person or system that receives the message. In electronic communication, the receiver is typically another computer or electronic device that processes and interprets the received data.
6. Noise: Noise refers to any interference or disturbances that affect the transmission or reception of the message. In electronic communication, noise can be caused by electromagnetic interference, packet loss, latency, or any other factors that may distort or corrupt the transmitted data.
7. Feedback: Feedback is the response or reaction from the receiver back to the sender, indicating the message has been received and understood. In electronic communication, feedback can be in the form of acknowledgement messages or responses sent back to the original sender.
By understanding and applying these components and processes, electronic/computer communication can be effectively designed, implemented, and optimized for reliable and efficient transmission of information.