Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project
Hi. Apologies for the late reply. We bought an old, used, belt-driven jack trolley and modified it to get space for all the equipment onboard. Luckily, it came with belts which we feared was the most difficult component to find. The motors we got from an electric-powered wheelchair, and bought a linear actuator from a local vendor (Linak). The electronics used was quite basic. A microcontroller to run Labview, motor controller, IMU (for controlling the tilt function for the seat) and two 12-volt car batteries in series to achieve 24V supply.
Hi. Sorry for the late reply. Basically, we started with odometry to estimate travelled distance. However, as you probably know, belt-driven vehicles tend to slip, which introduces a lot of error in the calculation. So our idea was to try to correct the estimation error with something called structured light. I can immediately admit that it didn't work very well. It is based on a camera that percept light from a laser grid and infers distance by analysing angular change. Hope this video was able to help you to progress your own project.
Hi. Sorry for the late reply. We didn't really make a lot of proper documentation on this project since it was executed fairly ad-hoc. The little documentation we have are only in written in norwegian (part of our research report). Still, I hope this video was enough to give some inspiration to progress your project ahead.
Hi. Apologies for the late reply. This research project did not have very strict requirements for documentation, and the whole project was execute in an ad-hoc manner. Therefore, the little documentation we have is only in norwegian (part of our research report). Still, I hope this video was enough to give some inspiration to tackle your project.
Sorry for the late reply. We were lucky to find a used, belt-driven jack trolley on the used market here in Norway. It was delivered with belts and was pretty sturdy as a main frame. Added a lot of weight as well, which was important for good traction.
Hi. I'm not certain of what you're asking here. If you're still interested after these three years (sorry about that btw), I can try to provide some info.
Hi. Thanks for the comment and apologies for the late reply. We salvages the two motors from an electric-driven wheelchair. I cannot recall any specifics about of them, but they were driven by a motor controllen which ran on 24 V. The motors caused a lot of electromagnetic noise which threw off some of our onboard sensors, like the IMU which tilted the chair.
Comfort wasn't our first priority, but still an important factor for the end product. It was fun to ride upwards, and quite daunting downstairs. Of course, we had to use safety straps to anchor the robot and test it in stairs with hand railings. Got an image here: drive.google.com/file/d/1efoU1eJ89TpmfCjubIUGnTOcUEmjrsOy/view?usp=drive_link
Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project
Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project
Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project
Can you plz gives information about components which is used
Hi. Apologies for the late reply.
We bought an old, used, belt-driven jack trolley and modified it to get space for all the equipment onboard. Luckily, it came with belts which we feared was the most difficult component to find. The motors we got from an electric-powered wheelchair, and bought a linear actuator from a local vendor (Linak). The electronics used was quite basic. A microcontroller to run Labview, motor controller, IMU (for controlling the tilt function for the seat) and two 12-volt car batteries in series to achieve 24V supply.
Can you give any information about the dynamic analysis
It would be great help
Hi. Sorry for the late reply.
Basically, we started with odometry to estimate travelled distance. However, as you probably know, belt-driven vehicles tend to slip, which introduces a lot of error in the calculation. So our idea was to try to correct the estimation error with something called structured light. I can immediately admit that it didn't work very well. It is based on a camera that percept light from a laser grid and infers distance by analysing angular change. Hope this video was able to help you to progress your own project.
Hi! Is there any documentation or at least a list of components you can furnish? Even the slightest of more information would greatly help
Can you please share some documentation about the project
Hi. Sorry for the late reply.
We didn't really make a lot of proper documentation on this project since it was executed fairly ad-hoc. The little documentation we have are only in written in norwegian (part of our research report). Still, I hope this video was enough to give some inspiration to progress your project ahead.
From where can i buy the belt
Hi, could you share a link of some of the documentation/schematics of the project ?
Hi. Apologies for the late reply.
This research project did not have very strict requirements for documentation, and the whole project was execute in an ad-hoc manner. Therefore, the little documentation we have is only in norwegian (part of our research report). Still, I hope this video was enough to give some inspiration to tackle your project.
Where to get those caterpillar bands?
Sorry for the late reply.
We were lucky to find a used, belt-driven jack trolley on the used market here in Norway. It was delivered with belts and was pretty sturdy as a main frame. Added a lot of weight as well, which was important for good traction.
👍🏆👍
timing belt pitch?
Hi. I'm not certain of what you're asking here. If you're still interested after these three years (sorry about that btw), I can try to provide some info.
motor used ?
Hi. Thanks for the comment and apologies for the late reply.
We salvages the two motors from an electric-driven wheelchair. I cannot recall any specifics about of them, but they were driven by a motor controllen which ran on 24 V. The motors caused a lot of electromagnetic noise which threw off some of our onboard sensors, like the IMU which tilted the chair.
what’s it like when you sit in the chair and go up & down the stairs 🙈🤢
That’s why he didn’t sit on it.
Comfort wasn't our first priority, but still an important factor for the end product. It was fun to ride upwards, and quite daunting downstairs. Of course, we had to use safety straps to anchor the robot and test it in stairs with hand railings. Got an image here: drive.google.com/file/d/1efoU1eJ89TpmfCjubIUGnTOcUEmjrsOy/view?usp=drive_link
Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project
Hey brother, I was fortunate enough to see ur video. Couldn’t believe that u posted this 5 years back. btw could u help me with the basic structure of it as it is my University project