My senior design project for mechanical engineering was swapping lead acid batteries in an electric skateboard for nickel metal hydride (2008 lithium battery prices were not within a college budget).
It gave me a new found appreciation for battery tech and I still feel a bit like they’re incomprehensible magic boxes.
My proudest part of the project was: we didn’t have money for high end voltage or current recording devices and the amps of the thing was quite high. I zip tied a volt meter and an analog current gauge to a piece of plywood, then we mounted a 2x4 at a 90 degree angle and attached a camera to that. We used that setup to take video when we were riding. It let us correlate the time and other units together. By watching the video and manually recording the results into a spreadsheet.
Not fast or high precision but it worked well and most importantly was within budget.
Now that we have DMMs that have QR code displays you don't need to manually transcribe. All joking aside, I have generated telemetry data and displayed via a QR code for exactly this application. Documenting here as prior art so it can't be patented.
A system and method for displaying time series data from any data-generating device as a Quick Response (QR) code, enabling efficient data extraction from video recordings. This invention facilitates the capture and analysis of time series data without manual transcription across a wide range of applications.
Can you publish details (or a link thereto) to solidify the prior art? IIRC, not only the fact of success but also the methods used must be published to establish prior art.
One of the best ways to do this may be to file a Provisional Patent application. It costs $100, and is a write-up of the outline and methods/technology used. The patent office does nothing but leave it in a drawer. If you file a proper patent application referencing it within 365 days, then it becomes part of the new patent and holds your priority date. If you don't then the contents of the Provisional Patent app becomes public domain - now fully and authoritatively documented public domain.
Depends, we managed to OCR all pixels from a standard 128x64pixel OLED. Doing 20 kB/s as a debugging interface was marvelous. Someone smart used the mounting holes on the screen to mount a fixed Finder pattern (the squares in QR Codes), and it was almost fool proof. So Yeah you can easily do seven segment displays now days.
Nice! I love the simple approach like the story which I'm not sure if it's true or not that NASA spent $$$ developing an ink pen that would work in zero-g and the Russians used a pencil.
It gave me a new found appreciation for battery tech and I still feel a bit like they’re incomprehensible magic boxes.
My proudest part of the project was: we didn’t have money for high end voltage or current recording devices and the amps of the thing was quite high. I zip tied a volt meter and an analog current gauge to a piece of plywood, then we mounted a 2x4 at a 90 degree angle and attached a camera to that. We used that setup to take video when we were riding. It let us correlate the time and other units together. By watching the video and manually recording the results into a spreadsheet.
Not fast or high precision but it worked well and most importantly was within budget.