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Critical Reflection

Module Learning: During the start of the module my main goal of the module was to improve on my essay and report-writing skills. This goal was achieved by practicing and getting feedback on my reports.The first individual report that I had to write, which is the summary and reader response, served as both my first practice and learning experience. Thanks to the feedback I received from both professor Brad and my peers, this report helped me improve my writing abilities. We gained knowledge by pointing out each other's errors during the peer feedback and evaluation. The second report was a group project in which we had to identify a robotic system that had some flaws and come up with solutions to fix them. With the application of critical thinking, we broke down the issues of the robotic system and came up ideas that will solve specific problems. This report had to be written in a way that required extensive research and supporting data for our ideas. Because it was a collaborative

Sumary/Reader Response Draft 3

The DTG3 is an underwater drone for inspections and surveys that is incredibly quick to install and trustworthy(DTG3, n.d.). It can come with numerous attachments, enhancing this remotely operated vehicle (ROV). The ROV's revolutionary pitch system allows the users to move the imaging sonar, grabber, and camera head, with the aid of professional engineering and gravity, enabling the user to scan areas or adjust the location of their addons without activating thrusters( DTG3, n.d. ). The ROV is built with durable materials and a cutting-edge magnetically coupled thruster design to endure the harsh maritime environment. To control, integrate, communicate, and improve the experience, the DTG3 runs on the Deep Trekker BRIDGE intelligent platform( DTG3, n.d. ). Deep Trekker BRIDGE utilizes cutting-edge technology to offer consumers solutions that are simple and easy to use. The ROV would be controlled by a durable Deep Trekker handheld controller that comes with a seven-inch LCD. The co

Sumary /Reader Response Draft 2

The DTG3 is an underwater drone for inspections and surveys that is incredibly quick to install and trustworthy(DTG3, n.d.). It can come with numerous attachments, enhancing this remotely operated vehicle (ROV). The ROV's revolutionary pitch system allows the users to move the imaging sonar, grabber, and camera head, with the aid of professional engineering and gravity, enabling the user to scan areas or adjust the location of their addons without activating thrusters( DTG3, n.d. ). The ROV is built with durable materials and a cutting-edge magnetically coupled thruster design to endure the harsh maritime environment. To control, integrate, communicate, and improve the experience, the DTG3 runs on the Deep Trekker BRIDGE intelligent platform( DTG3, n.d. ). Deep Trekker BRIDGE utilizes cutting-edge technology to offer consumers solutions that are simple and easy to use. The ROV would be controlled by a durable Deep Trekker handheld controller that comes with a seven-inch LCD. The co

Summary/Reader Response Draft 1

The DTG3 is an underwater drone for inspections and surveys that is incredibly quick to install and trustworthy(DTG3, n.d.). It can come with numerous attachments, enhancing this remotely operated vehicle (ROV). The ROV's revolutionary pitch system allows the users to move the imaging sonar, grabber, and camera head, with the aid of professional engineering and gravity, enabling the user to scan areas or adjust the location of their addons without activating thrusters( DTG3, n.d. ). The ROV is built with durable materials and a cutting-edge magnetically coupled thruster design to endure the harsh maritime environment. To control, integrate, communicate, and improve the experience, the DTG3 runs on the Deep Trekker BRIDGE intelligent platform( DTG3, n.d. ). Deep Trekker BRIDGE utilizes cutting-edge technology to offer consumers solutions that are simple and easy to use. The ROV would be controlled by a durable Deep Trekker handheld controller that comes with a seven-inch LCD. The co

Summary draft 2

The DTG3 is an underwater drone for inspections and surveys that is incredibly quick to install and trustworth y (n.d.) . It can come with numerous attachments, enhancing this remotely operated vehicle (ROV). The ROV's revolutionary pitch system allows the users to move the imaging sonar, grabber, and camera head, with the aid of professional engineering and gravity, enabling the user to scan areas or adjust the location of their addons without activating thrusters (n.d.) . The ROV is built with durable materials and a cutting-edge magnetically coupled thruster design to endure the harsh maritime environment. To control, integrate, communicate, and improve the experience, the DTG3 runs on the Deep Trekker BRIDGE intelligent platform (n.d.) . Deep Trekker BRIDGE utilizes cutting-edge technology to offer consumers solutions that are simple and easy to use. The ROV would be controlled by a durable Deep Trekker handheld controller that comes with a seven-inch LCD. The controller uses t

Summary Draft 1

  The DTG3 is an underwater drone for inspections and surveys that is incredibly quick to install and trustworth y (n.d.) . It can come with numerous attachments, enhancing this remotely operated vehicle (ROV). The ROV's revolutionary pitch system allows the users to move the imaging sonar, grabber, and camera head, with the aid of professional engineering and gravity, enabling the user to scan areas or adjust the location of their addons without activating thrusters (n.d.) . The ROV is built with durable materials and a cutting-edge magnetically coupled thruster design to endure the harsh maritime environment. To control, integrate, communicate, and improve the experience, the DTG3 runs on the Deep Trekker BRIDGE intelligent platform (n.d.) . Deep Trekker BRIDGE utilizes cutting-edge technology to offer consumers solutions that are simple and easy to use. The ROV would be controlled by a durable Deep Trekker handheld controller that comes with a seven-inch LCD. The controller uses

Formal Letter

 Dear Professor Brad, I am writing this letter as a self-introduction to you. My name is Chua Wei Jie, Nigel and I am a student at the Singapore Institute of Technology (SIT) pursuing my degree in robotics system engineering. In 2020, I graduated from Ngee Ann Polytechnic with a diploma in electronic and computer engineering. Thereafter, I went ahead to complete my National Service where I served my first year as an intelligence trooper. However, due to a service injury, my role was switched to an administrative support assistant in my second year. During the course of my study at Ngee Ann Polytechnic, I was taught many critical technical skills, which includes soldering, programming, and troubleshooting electronics. I had the opportunity to apply these skills on a project assigned by my internship company in my final year. In addition to this, I also had prior experience working as a part-time technician in a business that specializes in troubleshooting electronics. With these exposur