To begin, let’s talk about the type of workers needed for something this big. We need specific workers for different tasks ranging from people skilled in hardware to software. The beach cleaning robot will require both. We will also need people immersed in a sea life to manage the materials that we will be using. We don’t want to create something that will be harmful to the environment if our goal is to make the environment around beaches better. Assembling this robot requires skills in design, systems, information, computer science, engineering, and mathematics. The team developing and testing will have to focus on how to design and manage a complex system this massive. They also must evaluate how the components will work in synergy for it to perform the functions we needed to do. The designers in the project will have to be able to handle the pressure in these projects. They will be presented with the major task of laying the foundation for the project. This will allow the development team to realize the concepts by producing and testing the operations required to get the robot up and running. We are going to need designers who could produce innovative, but practical design ideas that can determine and solve engineering issues that will arise down the line during production. The technical aspects need to be written into a step-by-step process for our mechanical engineering team to follow. It is better and can save time if steps are written out clearly for our engineering team. Problems can lead to more money to spend to rectify issues and our goal is to avoid that as best we can. So, we need designers immersed deeply in technical communication for better odds of success. However, during the concept stage, it won’t just be the design team there, but the other engineering teams will be available for input. They will oversee, advise, and if need be, re-evaluate the process consistently based on feedback from any technical issue that may occur during early testing. Once the design and systems have been fully understood and translated into a production process, the creation of the robot can begin by the mechanical engineers.  For our mechanical engineer team, we need stars who have major skills in thermodynamics, mechanics, structural analysis, electrical systems, and materials science. For better chances of success, we need our engineering team to utilize tools like CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) systems. This can help them produce the robot design efficiently.  The mechanical engineers will design the robot’s structure, mechanisms, solar energy transfer characteristics (money safer), and more that we will go into depth later.