Research Proposal Business Presentation in Dark Green Orange Geometric Style

[Virtual Presenter] Good morning, everyone. Today, we are proud to present our project, the Remote-Controlled Moving Trash Bin. Our team is composed of Reuben Jay B. Cablas, Alexa Lianne C. Mandocdoc, Shaira Mae Pascual, Keizer Chariz C. Saballeque, and Ruslyn G. Villaviray. The project is spearheaded by John Loyd S. Soriano. We hope that we can provide an easier and more efficient way of disposing of our trash..

[Audio] Our project presents the Remote-Controlled Moving Trash Bin, integrating a UV Sterilizer and Alcohol Disinfectant to reduce contamination of bacteria. Powered by a sustainable and environmentally-friendly source of electricity, it also has a battery for daytime use and a motion sensor that will automatically trigger the UV light and alcohol disinfectant. Cablas, Mandocdoc, Pascual, Saballegue, and Villaviray, and Soriano, John Loyd S. aim to create a practical and effective solution to the current crisis on trash with this project..

[Audio] The aim of this project was to investigate how a remotely-controlled moving trash bin (RCMTB) could improve existing waste disposal techniques. The research team looked into the practicality, availability and cost of materials, as well as the researchers' knowledge of the device. Additionally, the team assessed the functionality of the RCMTB, considering accuracy of sensors, quality, efficiency and durability. Finally, they compared the device to other trash bins and provided an outline of its advantages. Data for the study was gathered by running trials and observing at Limay Senior High School in Duale, Limay, Bataan..

[Audio] Introducing our new remote-controlled moving trash bin, designed to make waste management easier and more efficient. Our device has a dedicated application that allows users to schedule garbage disposal to fit their local waste collection timetable. Beyond streamlining disposal processes, this technology also promises to have a positive impact on our local environments. Research conducted by Caliso, C., Edos, J., et al. has yielded impressive results, confirming the Trash Bin's effectiveness in traversing its surroundings, withstanding signal interference, and supporting a weight of up to 1 kilo for 30 minutes. User-friendly and accessible, the Trash Bin is designed to maximize operational efficacy for individuals. We at Cablas, Mandocdoc, Pascual, Saballegue, and Villaviray are inviting you to join us in embracing the future, and a more sustainable waste management system..

[Audio] For the successful implementation of our project to create a remote-controlled moving trash bin, we employed a research design called Experimental Design. This entailed the use of two sets of variables to compare and analyze. We gathered all the required materials, adhering to the budget, such as a waste bin, remote-control toy car, solar panel, and infrared sensor. By taking apart the car, we obtained the essential control panel for the project. We substituted a power bank instead of a regular battery, and included an IR sensor, UV sterilizer, and an alcohol disinfectant for safety. To make movement easier, we added wheels to the device. These efforts were put into this project to make it convenient, efficient, and safe..

undefined. VIDEO PRESENTATION.

[Audio] We are conducting a feasibility test to evaluate the technical and physical properties of our project to assess its performance in the real world. The feasibility percentage will be used as a measure to compare our project to existing devices. The data gathered from this test will be utilized to make alterations and improvements necessary so our project can be successful..

[Audio] The results of our project, based on four trials, certify the efficacy of our remote-controlled moving trash bin. In the first and second trials, no disinfection was necessary, and the speed measurements were less than the expected range of 20-30 cm/s. In the third trial, when 100% disinfection was attained, the observed speed at 26.5 cm/s was within the expected range. The fourth trial also showed that with 100% disinfection, the observed speed at 22 cm/s was within the expected range..

[Audio] Our research on the Remote-Controlled Moving Trash Bin has yielded positive outcomes. The trials confirm that it is plausible, robust and efficient. Moreover, its solar panel has the capacity to charge the power bank via light energy conversion, while the UV sterilizer and alcohol disinfectant reduce contamination to a minimum. Above all, the device could remarkably contribute to appropriate waste disposal due to its advanced technological features. The RCMTB has potential for usage in a wide variety of settings..

[Audio] Our team, Cablas, Mandocdoc Pascual, Saballegue, and Villaviray, with Soriano, John Loyd S. as its title, has worked hard to perfect a project to develop a remote-controlled moving trash bin. Testing and research has revealed a few recommendations for further optimization. These include making movement more convenient by adding additional enhancements, using a sturdier yet lighter trash bin to better support the wheels and handle the weight, and lengthening the range of the remote control. Implementing these improvements should enable the trash bin to be used as intended..

[Audio] Our team has put in a tremendous effort in creating a remote-controlled moving trash bin, which we believe could have a major impact on people everywhere. We share your enthusiasm for this project and confidently that it can be part of a brighter future. Again, we are sincerely grateful for your attendance..