Peh Jun Yi Bryan

 The contributions that I contributed: 1.)  I make sure that my group complete said tasks days before the actual deadline, so I can do some double-checking on the overall work and edits as per needed. 2.) I make our ideas more refined by researching and providing new pointers that could be added to our project. I do this by asking ourselves questions that steer us in the right direction, and also I read up more on the stakeholder we are targeting to have a clearer picture of the situation. 3.) I did researched on the possible introduction points that can put into the report. I did this by first, referring to the past students' sample work and came up with some that is relevant to my topic. From there, I used gAI to further expand on the pointers and from there, I pick out those that I feel is specific to our topic. 4.) I paraphrased our problem statement by properly stating everything that is in our ideal, gap and goal. I also paraphrased our purpose statement by looking through th

  Advancements in rehabilitation and athletic training have incorporated innovative technologies to enhance recovery and performance. One significant innovation example is the AlterG Anti-Gravity Treadmill, which features NASA-developed Differential Air Pressure (DAP) technology to reduce users' effective body weight, which provides a new approach towards training and rehabilitation (AlterG, n.d.). It is made up of a pressurized air chamber that encases the lower body, which is attached to a treadmill surface, along with an advanced controlling system for adjusting body weight and delivering real-time feedback (NASA, 2009). Users wear specially designed shorts that secures them properly to the chamber. The ability to "reduce gravitational load and body weight in precise 1% increment", ranging from 20% to 100%, creates a lower impact force when running or walking, which minimizes joint stress (AlterG, n.d.; De Heer et al., 2020, as cited in NCBI, n.d.). Having the capabili

  Advancements in rehabilitation and athletic training have incorporated innovative technologies to enhance recovery and performance. One significant innovation example is the AlterG Anti-Gravity Treadmill, which features NASA-developed Differential Air Pressure (DAP) technology to reduce users' effective body weight, which provides a new approach towards training and rehabilitation (AlterG, n.d.). It is made up of a pressurized air chamber that encases the lower body, which is attached to a treadmill surface, along with an advanced controlling system for adjusting body weight and delivering real-time feedback (NASA, 2009). Users wear specially designed shorts that secures them properly to the chamber. The ability to "reduce gravitational load and body weight in precise 1% increment", ranging from 20% to 100%, creates a lower impact force when running or walking, which minimizes joint stress (AlterG, n.d.; de Heer et al., 2020, as cited in NCBI, n.d.). Having the capabili

Advancements in rehabilitation and athletic training have incorporated innovative technologies to enhance recovery and performance. One significant innovation example is the AlterG Anti-Gravity Treadmill, which features NASA-developed Differential Air Pressure (DAP) technology to reduce users' effective body weight, which provides a new approach towards training and rehabilitation (AlterG, n.d.). It is made up of a pressurized air chamber that encases the lower body, which is attached to a treadmill surface, along with an advanced controlling system for adjusting body weight and delivering real-time feedback (NASA, 2009). Users wear specially designed shorts that secures them properly to the chamber. The ability to "reduce gravitational load and body weight in precise 1% increment", ranging from 20% to 100%, creates a lower impact force when running or walking, which minimizes joint stress (AlterG, n.d.; de Heer et al., 2020, as cited in NCBI, n.d.). Having the capabiliti