Bow arduino simulator
One single part of the sight came loose during any of the tests, at both short and longĭistances, and though there are some easily fixable design issues, the sight has The design was successful, it stayed in place at different points of elevation and not
![bow arduino simulator bow arduino simulator](https://i.ibb.co/89KQ6qX/simulator-config.png)
Subjected to testing on three different recurve bows and observed to see how well it Hand and in Soildworks to create a prototype, which was then made in Brunnel LabsĪnd Smeaton Workshop on the University of Plymouth Campus, and was then Together a consensus of the pros and cons of modern sights.Īpplying this data, initial ideas, additional designs, and a final design were drawn by Processes, along with different testing methods, market, and product research to put Researching different types of materials, their properties, and manufacturing Quality sights without any part coming loose and failing. This project aimed to take the recurve bow sight and redesign it so that it lookedĭifferent to most modern-day recurve bow sights but can function just as well as high Redesign of a Novel Sight with a Recurve Bow This meant that the focus of the project was mainly on the CAD/CAE.ģD designing of an autonomous boat system has been developed, allowing for the setup of an autonomou. Due to issues with COVID-19 and the lockdown that ensued, no parts were 3D printed as it was difficult to use the labs. This boat has wingsails instead of sails due to its sustainability while still being easy to run. Due to the project being the design of the Sensoring system, this was the focus, the dimensions of the boat were just assumed in this instance as a 1m long sailboat.
![bow arduino simulator bow arduino simulator](https://www.researchgate.net/profile/Stian-Skjong/publication/312062227/figure/fig7/AS:669271692701722@1536578214968/Hardware-in-the-Loop-co-simulation-case-study-with-an-Arduino-UNO-microcontroller-as-a-DP_Q640.jpg)
The whole system will be powered from a simple battery pack large enough to power it for the journey needed. For a big system, a breadboard was needed in order to attach the parts to the motherboard, each product was chosen if it was compatible with the Arduino board this meant that some of the parts would need a level shifter to change the voltage input/output for the parts to work efficiently. The motherboard was the first to be chosen, so the Arduino Mega 2560 was selected due to its reliability and how flexible it is in the way that it can be partnered with a variety of parts that will work efficiently. Utilising off-the-shelf parts an electronic circuit was produced. Mechanical Design, Sensoring and Control of Autonomous SailboatsģD designing of an autonomous boat system has been developed, allowing for the setup of an autonomous boat to be made.