Your paper should meet the following requirements:
Be approximately 5 to seven pages in length, not including the required cover page and reference page.
Follow APA7 guidelines. Your paper should include an introduction, a body with fully developed content, and a conclusion.
Support your answers with the readings from the course and at least two scholarly journal articles to support your positions, claims, and observations, in addition to your textbook. The UC Library is a great place to find resources.
Be clearly and well-written, concise, and logical, using excellent grammar and style techniques. You are being graded in part on the quality of your writing.
done
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2 mins ago[supanova_question]
Webots
Accept only if u know python
Please download webots https://cyberbotics.coms
C.1 Task 1 – Wall MappingMapping requires finding the complete internal wall configuration by keeping track of robotpose. Map will not be known in advance.Implement robot controller: “lab4_task1.py”.C.2 Task 2 – Path Planning with Wavefront PlannerPath planning requires the robot to find and navigate the shortest path between given start andgoal location. Map will be known in advance. Task requires use of wavefront planner. Printwavefront planner information prior to navigation.Implement robot controller: “lab4_task2.py”.C.3 Task 3 – Path Planning with Topological MapPath planning requires the robot to find and navigate the shortest path between given start andgoal location. Map will be known in advance. Print topological map information prior tonavigation.Implement robot controller: “lab4_task3.py”.C.4 Task 4 – Path Planning with Potential Fields (Extra Credit)Path planning requires the robot to find and navigate the shortest path between given start andgoal location. Map will be known in advance. Note that this task will use the larger world, shownin Figure 2b, requiring a larger data structure. Use a cell numeration analogous to the smallermaze, i.e. top row 1-8, and so on. Robot starting location will be unknown, ending location will
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Please see the below questions. Only accept having idea
Computer Science Question Computer Science Assignment Help Do you have any idea about IRB rules
see the link https://www.aapor.org/Standards-Ethics/Institution…
These 3 questions are related to IRB
1 Potential Risks. You state loss of confidentiality, legal risk, and psychological risk. Why?
2 confidentiality. Please check IRB on the destruction of online surveys and destroying the audio recorders, etc. Very important we check.
3. Data. Check the destruction timeframe in IRB for data.
Statistical question
4 Study Population. How did you discover that 15 is the sample size for 80 participants?
5.
The research questions are:
RQ1. Are machine learning algorithms for cyber threats effective, and do they efficiently
execute their role of protection?
RQ2. What are the ethical considerations in using machine learning algorithms in
combating cyber-attacks?
RQ3. Are there any cyber threats that use machine learning algorithms as part of their
attack portfolio?
RQ4. Are there any demerits and pertinent issues related to using machine learning
algorithms in mitigating cyber-attacks?
Based on research questions create 10 survey questions(Please ensure that your research questions correlate with your survey questions. )
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few seconds ago[supanova_question]
Webots Python Empty worlds: “Lab3_epuck.zip
Accept only if u know python
Please download webots https://cyberbotics.com/P
C.1 Task 1 – Motion Estimation Motion estimation requires keeping track of robot pose based exclusively on PositionSensors and IMU readings. Use the world from Figure 2(a). Implement two robot controllers: (2) “lab3_task1_noise.py”, with noise. (Extra Credit)
C.2 Task 2 – Measurement Estimation to Unique Landmarks Measurement estimation will be based on robot sensors and camera to recognize and measure distance to the colored cylinders. Use the world from Figure 2(b). You are required to use Triangulation or Trilateration methods to determine robot pose. Note that trilateration methods use relative distance to landmarks, while triangulation methods use both distances and angles relative to landmarks. Implement two robot controllers: (2) “lab3_task2_noise.py”, with noise. (Extra Credit)
I just need the extra credit portion[supanova_question]