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Critical Reflection

 Multiple ways that critical thinking has benefited me. Compared to before this module, my way of thinking has significantly changed. My goal at the outset of the program was to be able to efficiently assemble my thoughts and talk fluently. This program has helped me to efficiently assemble my thoughts, and by doing so has helped me greatly to converse fluently as I have all the ideas in my mind. Being able to think critically also help me with doing assignments, previously I was not able to write a formal letter as the ideas were all over the letter. Overall, I have to say that the materials and information imparted to us were really helpful in terms of communication and critical thinking abilities. My communication abilities were also enhanced by talking and asking questions in class. Having different group mates for different assignments also makes me learn that different people have a different ways of doing assignments is different. I believe that through effectively communicating
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Summary & Reader Response (Draft 3)

  The article “Firefighting Robots Go Autonomous” written by (Little, 2021) addressed researchers’ breakthroughs in developing firefighting robots and their capabilities. As Neil Sahota, an inventor who advises the United Nations on artificial intelligence issues commented “mobility is the big complication” (Little, 2021), many researchers are faced with the problem to tackle when it comes to developing either a remote-controlled or autonomous firefighting robot. However, weighing 3500 pounds and fitted with tanklike treads and a huge plow nose at the front, the Robotics Systems 3 (RS3) is able to pull hoses up inclined slopes and heavy objects out of ditches. The RS3 is fitted with multiple cameras for ease of operation from a safe distance of 900 feet from the user. Equipped with four cameras, these give the operator the full view of the robot’s surroundings both in normal imaging and thermal. With the help of the cameras, the operator is able to not only guide the nozzle to the requ
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Summary & Reader Response (Draft 2)

The article “Firefighting Robots Go Autonomous” written by (Little, 2021) addressed researchers’ breakthroughs in developing firefighting robots and their capabilities. As Neil Sahota, an inventor who advises the United Nations on artificial intelligence issues commented “mobility is the big complication” (Little, 2021), many researchers are faced with the problem to tackle when it comes to developing either a remote-controlled or autonomous firefighting robot. However, weighing 3500 pounds and fitted with tanklike treads and a huge plow nose at the front, the Robotics Systems 3 (RS3) is able to pull hoses up inclined slopes and heavy objects out of ditches. The RS3 is fitted with multiple cameras for ease of operation from a safe distance of 900 feet from the user. Equipped with four cameras, these give the operator the full view of the robot’s surroundings both in normal imaging and thermal. With the help of the cameras, the operator is able to not only guide the nozzle to the requir
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Summary & Reader Response (Draft 1)

The article “Firefighting Robots Go Autonomous” written by Little (2021) addressed researchers’ breakthroughs in developing firefighting robots and their capabilities. As Neil Sahota, an inventor who advises the United Nations on artificial intelligence issues commented “mobility is the big complication” (Little,2021), many researchers are faced with the problem to tackle when it comes to developing either a remote-controlled or autonomous firefighting robot. However, weighing 3500 pounds and fitted with tanklike treads and a huge plow nose at the front, the Robotics Systems 3 (RS3) is able to pull hoses up inclined slopes and heavy objects out of ditches. The RS3 is fitted with multiple cameras for ease of operation from a safe distance of 900 feet from the user. Equipped with four cameras, these give the operator the full view of the robot’s surroundings both in normal imaging and thermal. With the help of the cameras, the operator is able to not only guide the nozzle to the required
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Assignment 2-Summary (Draft 2)

  The article “Firefighting Robots Go Autonomous” written by Little (2021) addressed researchers’ breakthrough in developing firefighting robots and its capabilities. As Neil Sahota, an inventor who advises the United Nations on artificial intelligence issues, commented “mobility is the big complication” (Little,2021), many researchers are faced with the issue to tackle when it comes to developing either a remote controlled or autonomous firefighting robot. However, weighing 3500 pounds and fitted with tanklike treads and a huge plow nose at the front, the Robotics Systems 3 (RS3) is able to pull hoses up inclined slopes and heavy objects out of ditches.The RS3 is fitted with multiple cameras for the ease of operation from a safe distance of 900 feet from the user. Equipped with four cameras, these give the operator the full view of the robot’s surroundings both in normal imaging and thermal. With the help of the cameras, the operator is able to not only guide the nozzle to the require
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Assignment 2-Summary (Draft 1)

The article “Firefighting Robots Go Autonomous” written by Little (2021) addressed researchers’ breakthrough in developing firefighting robots and its capabilities. As Neil Sahota, an inventor who advises the United Nations on artificial intelligence issues, commented “mobility is the big complication” (Little,2021), many researchers are faced with the issue to tackle when it comes to developing either a remote controlled or autonomous firefighting robot. However, weighing 3500 pounds and fitted with tanklike treads and a huge plow nose at the front, the Robotics Systems 3 (RS3) is able to pull hoses up inclined slopes and heavy objects out of ditches.The RS3 is fitted with multiple cameras for the ease of operation from a safe distance of 900 feet from the user. Equipped with four cameras, these give the operator the full view of the robot’s surroundings both in normal imaging and thermal. With the help of the cameras, the operator is able to not only guide the nozzle to the required
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Self-introduction formal email

 Subject: Self-introduction Dear Professor Brad, My name is Jing Zhe you can address me simply as JZ. I am currently studying mechanical engineering in Singapore Institute of Technology as a year 1 student attending your critical thinking and communicating module.   Being an ESFP-T personality, I am very fun-loving, energetic, and spontaneous, but more importantly, I take pleasure in things around me. I have a contagious enthusiasm for life and am always eager to help others have a good time. According to the Myers's-Briggs Type Indicator (MBTI) test, I am a person with the Extraverted, Observant, Feeling, and Prospecting personality trait, ESFP for short. It shows a person who is energized by spending time with others (extraverted), focuses on details and facts and not concepts and ideas, makes decisions premised on values and feelings, and prefers being flexible and spontaneous instead of organized and planned. Thus, I consider myself someone who lives in the moment and enjoys do
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