A few months prior to PalaeoPi spinning out from the University of Oxford, some time in late 2017, our executive director Richard Benjamin Allen worked with Historic Environment Scotland and National Museums Scotland to produce a photogrammetric model of one of the Cuween dog crania as part of a larger project into the life of canines at the site. This contract acted as a seed corn for the early days of the company and was one of the first objects to be created on our prototype automated turntable.
You can check out the skull below, and link to HES’s Sketchfab upload where there is more detailed information available on the project!
Here at PalaeoPi our executive director wears many hats. One of them is software engineer. After a month of late nights and lots of coffee, we now have a powerful new release available for customers of the TablePi MKIII; Version 2.0!
Version 2.0 has the following improvements to offer over 1.1.
Fully responsive graphical user interface; no more latency during capture.
The ability to pause, resume and cancel a capture at any point.
The ability to use randomly generated UUIDs at the push of a button if you do not wish to use a keyboard and mouse.
Double sided mode which will pause halfway through a capture so that you can flip an object and resume when you want it to.
Remote software updating; to make it easier to benefit from future releases.
Optimisation of photo download; what used to take several minutes now takes seconds.
Additional options for photos per capture; you can now take 80, 64, 50, 40, 32, 25, or 5 images per rotation.
We will be in contact with our existing customers about how to upgrade your system. For new customers, all new orders include the new release by default.
I hear you say “what is RTI“? Well it stands for Reflectance Transformation Imaging. But that doesn’t tell you very much. What it does, is basically allow one to capture the surface detail of an object and relight it from any angle. How is this useful? Some of you may also be thinking… Well one use could be bringing out surface detail that is hard to see in ordinary lighting conditions. Such as, hidden graffiti on a wall in a dark catacomb! Or microscopic cut marks on a piece of bone that could have been butchered. OK so with that last example they didn’t do RTI, and there has been a lot of controversy over their findings. If they had done RTI, they would have been able to share their work easily through WordPress or any HTML based site using the WebGL application below made by A Gentleman called Gianpaolo Palma and so allowed greater transparency with their research!
Above is an example of a bone we imaged with the help of the AiU using a custom rig that designed and built by us, commissioned by a DPhil student and funded by the Ashmolean Museum for a special field project. Go on, have a play! It’s simple, just press the ? for on screen instructions and be amazed by the virtual “torch light” bringing out hidden surface details!
Below you can see some pictures of the rig we used that was inspired in part by this article in Make magazine but was eventually completely redesigned. It’s bigger and badder and the circuitry is way more simple, we also added features such as swappable LEDs for potential multi-spectral imaging and ease of repair.