X Ray Cloth Scan Camera Fixed Download
Rikke Reifel
3. Clean the scanning glass.
Wipe the scanning glass with a cloth that has been dampened with water and thoroughly wrung out, and then use a dry, soft cloth to wipe away any moisture.
11. Clean the rollers inside the document eject pocket.
Wipe the rollers iwth a cloth that has been dampened with water and thoroughly wrung out, and then use a dry, soft cloth to wipe away any moisture.
When it comes to washing clothes, the laundry symbols on your tags might as well be hieroglyphics. They're difficult to interpret, easy to forget, and even easier to ignore. But if you don't want to ruin expensive designer clothes, blankets, and other fiber-based materials, you need to figure out the meaning behind those tiny icons. Thankfully, your iPhone can help out.
While you can buy posters of laundry symbol meanings, keep them bookmarked in your browser, or google them every time you need to wash, dry, or iron something without legible English text-based instructions, it's easier to use the camera on your iPhone to scan all the laundry codes at once. Once you do, you'll get directions on how to do everything depicted on the tag.
Apple doesn't have a built-in laundry symbol decipherer in its Camera like it does a QR code reader, so you'll have to use a third-party app. The app we're using can also be implemented into a shortcut that you can activate with Siri or via the Shortcuts widget. Plus, you can even make your iPhone read out the instructions to you so you can start looking at all of your other clothing care labels.
Install Laundry Lens, created by developer Alan Pegoli, from the App Store in iOS 13 or later. Once you open it, it's pretty self-explanatory. Give it access to the Camera, then scan a set of symbols on a care label. It'll search its database of over 70 different laundry care icons, then lets you see their meanings in easy-to-understand print. You can also search for symbols by their description.
With a shortcut, you can have a home screen icon or even a widget to scan the laundry symbols even quicker than the app itself. Plus, it also uses Siri to dictate the laundry symbols back to you, so you don't even need to read anything to learn how to wash and dry your clothes properly.
As long as you have the Laundry Lens app installed, the shortcut is ready to go. To test it out, tap on the shortcut from your "My Shortcuts" library in Shortcuts. The first time you use the shortcut, it will ask for access to your camera. Tap "OK" to continue.
You can also access the shortcut from the Shortcuts widget. In iOS 13, you can long-press the Shortcut app's icon on the home screen to see it and a few of your shortcuts, and you can make the laundry code scanner one of them. Then, you can just tap it from the quick actions widget. You could also add it to the Today View for easy access from the home or lock screen.
If you're running iOS 14, you can add the Shortcuts widget to your home screen or Today View, and it comes in different sizes. Once you add it, the laundry tag scanner should appear in the list, but you may need to make a folder in Shortcuts just for what appears in the widget, then edit the widget to use only that folder instead of anticipating which shortcut you want to use.
A bone scan is a test that uses nuclear imaging to helps diagnose and track several types of bone disease. Nuclear imaging involves using small amounts of radioactive substances (radiotracers), a special camera that can detect the radioactivity and a computer to see structures such as bones inside the body.
The tracer is absorbed more by cells and tissues that are changing. As a result, a bone scan can be used to find the source of unexplained skeletal pain, a bone infection or a bone injury that can't be seen on a standard X-ray.
A bone scan might help determine the cause of unexplained bone pain. The test is sensitive to differences in bone metabolism, which are highlighted in the body by the radioactive tracer. Scanning the whole skeleton helps in diagnosing a wide range of bone disorders, including:
You typically don't need to restrict your diet or restrict activities before a bone scan. Let your health care provider know if you've taken a medicine containing bismuth, such as Pepto-Bismol, or if you've had an X-ray test using barium contrast material within the past four days. Barium and bismuth can interfere with bone scan results.
Your health care provider might order a three-phase bone scan, which includes a series of images taken at different times. A number of images are taken as the tracer is injected, then shortly after the injection, and again 3 to 5 hours after the injection.
To better see some bones in your body, your doctor might order additional imaging called single-photon emission computerized tomography (SPECT). This imaging can help with conditions that are especially deep in your bone or in places that are difficult to see. During a SPECT scan, the camera takes images as it rotates around your body.
A bone scan generally has no side effects, and no follow-up care is needed. You might be asked to drink a lot of water for the next day or two to flush the tracer from your system. The radioactivity from the tracers is usually completely eliminated two days after the scan.
A specialist in reading images (radiologist) looks for evidence of unusual bone metabolism on the scans. These areas appear as darker "hot spots" and lighter "cold spots" where the tracers have or haven't accumulated.
Although a bone scan is sensitive to differences in bone metabolism, it's less helpful in determining the cause of the differences. If you have a bone scan that shows hot spots, you might need more tests to determine the cause.
EINSTAR, an affordable handheld 3D scanner, makes high-quality 3D data available to everyone. In the standard package you will find a handheld 3D scanner with Exstar software, and a lightweight carrying case which includes a series of accessories: a silicone case, introductory user guide, positioning markers, cloth to wipe the lens, a carrying strap, power supply and USB cable.
Equipped with 3 Infrared VCSEL Projectors, 2 Stereo Depth Cameras and 1 RGB Camera, Einstar can capture clear scan data and generate stable outputs outdoors. Provide a flexible working distance for small and large objects.
Computer hardware requirements are high, so I ended up building a PC specificly for scanning and CAD work. I am now able to scan quite large, detailed parts with several million points and it all runs very smoothly.
I bought the einstar because of reviews I read that it was reasonably good for both large scale handheld scanning, and small scale turn table scanning. The scanner works quite well, but struggles on objects that are geometric objects(lots of flat sides, even if a lot of detail) and objects with a lot of repetition. It seems that it loses its place a lot on objects with geometric repetition. That being said, we were able to get some impressively detailed scans of a skull with slow movements and consistent distance of the scanner. When trying to scan small objects on a turn table, we found the performance was not great. If geometry was missed, it required a full rotation before it would try again to pick up the detail. It seemed to lose its reference points a lot with the turn table, and we have yet to get a good scan with the turn table. All that being said, I definitely see that with some practice, this could be a fantastic hand held unit for the money. For those reasons I gave it for stars.
As other pointed to the solution, you need to use ControlPoints or XMPs ( transfering properly solved camera params from reference scann ) but even then reconstructing this sort of dataset wil be problematic as is outisde of photogrammetry possibilities. I see you have RAW files used there. send me the dataset so can take a look on waht is possible to recover from the RAW files. it can help a bit. Contact me on my email.
The textile industry world-wide has experienced dramatic technological changes during the last decade. Automated visual inspection system is an example of such advancement in fabric inspection process. The most important change is switch over from dependency on human eye to scan by CMOS/CCD camera. The process is such that the location, size and image of the defects are recorded in the system. After the inspection, the product is graded in terms of severity and the detailed report gets printed. The aim is to obtain saving of manpower and time, as well as increased accuracy in the inspection process.
At the first level of processing, the image of the fabric is transformed into a threshold image which is a digital image in grey shades, this helps the software to read and differentiate between the image of the defect and the fabric. Post the conversion, the software marks the region with defects in the form of a window and the location of each defect is stored into the data. The defect window is further probed at the secondary level of image processing based on five attributes, namely, height and width of the defect window; the ratio of total defect area to the overall window area; total number of defects in the overall defects window and finally the ratio of the smallest defect area over the largest defect area. Based on the above mentioned attributes, data regarding each defect is generated, which helps in the recognition and classification of defects based on standard inspecting systems such as 4-point system. The system utilizes high resolution colour line scan technology and enhanced Defect Sorting Algorithms (DSA) to achieve defect detection and interpretation.
The Cyclops scanning head includes a camera and illumination system. The measuring head travels at a scanning speed of 1.08 metres per minute and has an option of backlight illumination for detection of starting marks in high density fabrics.
The Cyclops scanners cost US $ 5,000 each and can be used for fabric widths up to 260 cm for single panel looms using a single camera and 500 cm for double panel looms using two cameras for scanning. There is also the cost of a one-time vision software license of US $ 25,000. Thus the investment for an installation of 100 looms is about US $ 5,25,000. The company estimates the annual savings for a typical application to be US $ 2,00,000, giving a payback of roughly 2 years.
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