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Fit3D Body Scan Specialist Near Me in San Francisco, CA
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Home » Fit3D Body Scan Specialist in San Francisco, CA
At The G Spa, Our Fit3D Body Scan allows you to visually track changes in your body shape as you work toward your fitness goals.
Contact us for a detailed body scan today. For more information, call us or book an appointment online. We are conveniently located at 490 Post St, Suite 1703, San Francisco CA 94102.Table of Contents:
What is a Fit3D body scan?
What does a 3D body scan tell you?
How does 3D body scanning work?
What to wear to a body scan?
What are the benefits of getting a 3D body scan?
The better a person understands their body processes, the better they can optimize their health. Fit3D body scan is designed to provide detailed information about an individual’s biometrics, including weight, composition, balance, posture, and much more. Providing over 200 accurate body measurements, the Fit3D body scan can help track health progress and monitor different areas to prevent health complications.
What is a Fit3D body scan?
A Fit3D body scan is a diagnostic procedure that provides detailed health information such as body fat percentage, precise body measurements, and body shape rating.
It is commonly used in gyms and health clinics for people to track their progress over time. The scan provides over 200 accurate body measurements, as well as a history of changes, allowing patients to compare and share their progress. Fit3D body scans are invaluable tools for helping people achieve physical goals through diet and exercise. These body scanners are often located in state-of-the-art gyms and personalized training programs to provide more insight into body composition and physical wellbeing.
What does a 3D body scan tell you?
A 3D body scan can provide detailed information about body shape, skin-surface area, and size. A complete scan can tell:
• Weight
• Body fat
• Measurements
• Body Score Rating
• BMI (Body Mass Index)
• Waist-to-Hip Ratio
• Trunk-to-Leg Volume Ratio
• Posture Analysis
How does 3D body scanning work?
With a body scanning device, a person will stand in the middle and stay still for a few seconds while the device performs its analysis, allowing the scanner to collect images from various angles.
While some 3D body scanners are used to capture limbs or body parts, others, such as Fit3D, can capture the entire body, compiling valuable information about the body’s composition and physical stature.
What to wear to a body scan?
On the day of the scan, it is suggested to wear tight-fitting clothing or to bring some to change into. Loose clothing can make it difficult for the sensors to accurately depict body points, therefore, for the most accurate results, it is recommended to wear tight-fitting clothing. For women, a sports bra and workout leggings are typically preferred, whereas for men, thin fabric shorts are recommended.
What are the benefits of getting a 3D body scan?
There are many benefits of getting a 3D body scan, including:
• Track Workout Progress — With over 200 measurements, there are many different areas of progress one can follow.
Whether they are focused on losing body fat or increasing muscle mass, 3D body scans can provide in-depth information for many different areas of concern.
• Visual Aid — The 3D avatars created by these machines provide a visual reference when tracking progress, allowing people to see where they have improved and where they might be lagging. This technology allows people to be more knowledgeable of how they are doing and what they can be doing to achieve better results.
• Additional Measurements — While it is generally easy to measure height or weight, 3D body scanners can also determine measurements of the chest, arms, waist, and thighs as well as body fat percentage. This additional information allows people to have a full understanding of where they are in their progress and what they can do to continue seeing results.
• Accountability — Above all else, 3D body scans provide personal accountability; seeing progress, or lack thereof, is a big motivating tool for many people.
For people who do not work with a personal trainer, it can be hard to find help to achieve weight loss goals. By seeing results within the scanner, the scanner itself provides a reminder of personal goals and tracks how close they are to being achieved.
For a detailed look at your physical health, come to The G Spa for our Fit3D body scanner. Call us today to book an appointment with our Fit3D body scan specialist, or visit our clinic conveniently located at 490 Post St, Suite 1703, San Francisco CA 94102. We serve clients from San Francisco CA, Oakland CA, Pacifica CA, Brisbane CA, Millbrae CA, and San Francisco Bay Area CA.
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Almost DIY 3d scanner for home / Sudo Null IT News scanning is out of the question.
But the main plus that I took out from the article is the David-3D scanning program, which really has a good manual in Russian and, importantly, buying a license is the last thing required, since the free version is limited only to saving the scan result. Everything else works in full, which means that it is quite possible to test the program, settings and your hardware as much as you like. And if you don’t need the result with high accuracy, then you can do without buying a license at all.
I needed accuracy, since the main thing I wanted to scan was miniatures from the Warhammer board game (so that later I could change them as I wanted and print them :)). The height of these "soldiers" is only 3 cm, but this does not prevent them from being very detailed.
If you do not need to shoot such small objects, then your equipment requirements will be lower, which means that it will be much easier to assemble a similar scanner for yourself.
The principle of the program, and accordingly scanning, is well described in the article, which was linked above (I think it is not necessary to duplicate this).
It is advisable to read that article first, as this one will be in some way its logical continuation.
But let's start in order. What you need to try 3D scanning at home:
1 - projector.
2 - webcam.
That's all, the short list turned out surprisingly well. However, if you want to get very accurate and high-quality scans, then you will have to modify some things with pens. Of course, you can’t do without additional costs, but in the end it will still cost less than buying any of the commercially available 3D scanners, and the quality of the result can be obtained much better.
Now, in order and in detail.
PROJECTOR.
I, like the author of the previous article, started my first experiments on scanning with a laser pointer, but they immediately showed how inconvenient this method is. There are several disadvantages here at once:
- the impossibility of obtaining a beam with a sufficiently thin line. Moreover, when you turn the pointer, the distance from the lens to the object changes, which means the focus is lost.
- if you need to scan regularly, turn the laser pointer with sufficient accuracy and smoothness by hand is very difficult, and tiringly easy - the hands are not such a stable tool when it comes to a long time.
- you have to scan in the dark so that only the laser line is visible and nothing more.
And if the second drawback can still be dealt with by creating a special rotary mechanism (although this is already not such an easy task, in any case, this cannot be done in 5 minutes on the knee), then getting rid of the first drawback is more expensive.
When I realized all this, I decided to try scanning with a projector, for which I borrowed some simple model from a friend.
A small clarification should be made here - in the last article, the author mentioned the possibility of scanning using a projector, although the proposal was, in my opinion, very strange -
A projector with a powerful lamp is suitable, the light of which must be directed through a narrow slit to the object being scanned
This may have been the only option in earlier versions of the program, but in version 3 that I experimented with, the projector was used much better, because there's a feature called Structured Light Scanning (SLS).
Unlike laser scanning, the projector immediately projects a grid of vertical and horizontal lines of various thicknesses onto the object, which reduces the scanning time by an order of magnitude and allows you to automatically shoot the color texture of the object. Well, with good focus, a 1 pixel wide line is much thinner than you can get from an inexpensive laser pointer.
Unfortunately, I didn’t take pictures from those first experiments, and there wasn’t much to take pictures of - the projector is on the table, next to it is a webcam, all of this looks in one direction :) However, even such a simple design showed that this option much better both in terms of scanning speed and quality. Then I decided to buy myself a projector for these purposes.
The criteria for choosing a projector were simple - higher resolution, lower price and dimensions :)
The choice settled on IconBit Tbright x100 - an ultra-compact DLP LED projector, 1080 resolution - at that time it seemed to me that you couldn’t imagine better, but as it turned out later, I was wrong, although while working with it, I got a lot of interesting experience.
The first problem that occurs when scanning a small object with a projector is that for best results, the size of the projected grid should roughly match the size of the object being scanned. This projector made it possible to obtain the smallest screen diagonal at the closest focus - about 22 cm. Agree that against such a background, a miniature 3 cm high is far from the concept of "approximately equal sizes." The answer was found on the official forum - people in such cases install camera lenses on the projector for macro photography. Given the small size of the projector lens, I opted for marumi lenses with a thread diameter of 34mm.
Using two of these kits, I managed to get a projector screen with a diagonal of only about 3 cm. Which turned out to be quite enough to make my first microscan -
This is a single scan, therefore there are “holes” on the model, torn edges and etc. By turning the coin and scanning from different angles, you can get several of these scans, which are subsequently combined into one object (the scanning program itself allows you to correctly combine different scans, stitch them together and save them as a single object).
In the process of stitching, the shape of the object is also specified. But saving the results of such stitching is possible only after purchasing a license.
And now the moment has come for the first thing that is not necessary for scanning, but with it the process is much more convenient - this is a stand for a projector with a camera. The calibration process itself is needed not only for the program to recognize the parameters of the equipment - the software must also calculate the relative position of the camera and the projector. In the course of work, their change is not allowed (as well as changing the focus of the camera), which means that it is necessary to firmly fix all this, because the number of scans can be large even for one object.
David's main page shows a similar system - it is nothing complicated. Yes, and looking through the forum and seeing how different people organize it for themselves, I realized that nothing complicated is required here.
For these purposes, a stand was taken from a burned-out LCD monitor, and plexiglass from it, cut and glued like this design, as it looked in the first version , which allowed changing the screen diagonal and scanning objects of different sizes.
It should also be mentioned that scanning with a projector does not require the constant presence of calibration panels in the field of view. After the calibration is done, they can be removed. This allows, having calibrated the installation, to easily transfer it, move it, etc.
That is, you can use a large calibration template to calibrate at home on the walls, and then go outside with this stand and laptop and scan your car, for example. We took a smaller template, put a couple of lenses - and you can scan jewelry.
Recently, the company has released an improved scanning kit, here the stand looks much more serious and interesting -
2000 euros is not entirely justified, it is not difficult to assemble something like this yourself and much cheaper.
Let's go back to the projector. As it turned out, this projector had one major disadvantage for being used in a scanner, namely its native resolution (854*480). And everything would be fine if it produced the same output, but alas, the picture was converted to standard resolutions (such as 1024 * 768), and as a result, a line one pixel wide was somewhere brighter in different parts of the screen, where - something dimmer, somewhere already and somewhere wider .
.. All this had a negative effect on the quality of scanning, expressed in the form of ripples and stripes on the resulting model.
By that time, I was already thinking about buying a projector for a stereolithographic 3D printer (http://geektimes.ru/post/245590/). After considering several options, I settled on the Acer P1500 model, because. it does not need any modifications to be used in a printer (this projector, without any lenses, is able to give a focused image on a screen of about 4 * 7 cm). So, for the scanner, it will fit perfectly. At the same time, the resolution of 1920 * 1080 is real. And so it happened, I still use this projector and am completely satisfied with the results.
CAMERA.
The criteria for choosing a camera were the same as when choosing a projector. Having gone shopping, I stopped at the Logitech C615. The scan of the coin was made from it, without any modifications. But when I tried to scan the figurine, I ran into a problem called "depth of field".
When the object is so small, then in fact we get macro photography, and sharpness with such shooting is achieved only in a small segment, literally just a couple of millimeters (which is why the coin was scanned well - the relief fit perfectly into the sharpness area). It was decided to convert the camera to a different lens. Several different lenses were ordered on Ebay for testing, and a new case was cut out for the camera board. The plan was like this0003
The final result was slightly different
The main idea, I think, is clear. And now, both on Thingiverse and on the forum of the program, you can download stl for printing cases for different types of webcams.
I had to remove the standard lens from the camera board, and as it turned out later, the IR filter was removed along with it, so be careful in this matter. The filter will then come in handy for use with other lenses, although you can buy them separately - the price is cheap.
Thus, I have formed such a collection of lenses.
While I was waiting for the lenses to arrive, I was reading various photography forums. Studying the issue with depth of field, I found out that you can increase it by closing the lens aperture more. This means that the lens was required one in which it was possible to adjust the aperture (alas, among those ordered, not everyone had such an opportunity, but luckily I got a couple of them). In general, to improve the camera, it is desirable to have a varifocal lens with a zoom and an adjustable aperture. In practice, everything turned out the way it was in theory - closing the aperture, an increase in the depth of field was immediately visible, which made it possible to scan three-dimensional, but small objects.
The main lens I use is mounted on the camera in the photo above. The second, with an adjustable aperture, is the largest, in the center. I use it for very very small objects. The rest are without a diaphragm, so I don’t use them - it turned out that these two were quite enough.
Now I plan to either find a webcam with a higher resolution (the quality and detail of the scans directly depends on the resolution of the camera), or try to use some digital camera for this purpose with the ability to shoot video - usually you can get a lot more resolution in them, and lenses are better.
Actually, this could be the end - it seems that he told about everything. I also thought that this was the end of my scanner assembly, but the farther into the forest ... While studying the forum of this program, I often came across various schemes of turntables - fortunately, the software allows you to automate the scanning process. After one scan, a command is sent to the com port, the turntable rotates, turning the object by a given number of degrees, and gives a command to the next scan. As a result, with one click of the mouse, we have circular scans of the object - it would seem, what more could you want? I tried this system with interest, but alas, I absolutely did not like this approach, and there are a couple of reasons for this.
1 – if the object has a complex shape, then simply rotating it will not be enough – you also need to tilt it in different directions so that the camera with the projector reaches all the depressions and other hard-to-reach places.
2 - even if there are no such places, and considering all the scans that were made, there are no parts left on the object that did not fall into the scan, the question of the accuracy of the scan remains.
Let's say that some part of the model on one of the scans came out perfectly. But this does not mean that on all the scans in which this part fell, it also looks perfect, and when stitching scans from different angles, the result will be averaged, which cannot please. The program allows you to slightly edit the received scans (you can cut out the unnecessary part). If we rotate the model by 20 degrees, then after a full rotation we will have 18 scans, the part we need may well be present on half of them, therefore, in order to leave the best result, we will need to remove this piece from 8 scans .
.. And such pieces with a complex There can be many models, as a result, almost half will be cut off from each scan, which is very laborious and time consuming.
Instead, it is better to immediately scan adjacent areas after the first scan and check the result. As soon as a piece is ready, we move on to scanning the next one, and so on, until the entire model is in perfect shape. This approach gives the best results in less time.
But the question of convenience arises. Agree, it’s inconvenient to manually try to rotate an object, looking not at it, but at the monitor - in order to control the hit on the lens without changing the distance to the camera and the projector at the same time (so as not to lose focus). With the next similar balancing act, I accidentally touched the camera, which accordingly knocked down the entire calibration, and the whole process had to be started anew. I categorically did not like this alignment, and after some thought I came up with a plan for such a design (which, as you understand, I subsequently assembled).
This is not a turntable in the usual sense of the term. Thanks to this design, I can not only rotate the model, but also tilt it as I need. In this case, the center of the model remains in the plane of focus, but even if not, you can move the mount with the model back and forth.
All this was assembled on arduino, a small control program was written, and as a result, now I don’t have to get up from the computer when scanning - using the program, I change the position of the object being scanned, and at the same time, right there, in the window cameras I choose the best angle for scanning.
Insides
I put the possibility of automatic scanning into the program, as well as scanning not only in a circle, but with inclinations of 45 degrees in one direction and the other, which gives three times more scans. Nevertheless, in the end, I still never use this opportunity - it's too inconvenient to sort through the resulting pile of scans and clean them from unsuccessful pieces.
We should also mention some nuances of scanning.
1 - it is impossible to scan shiny and mirror surfaces. The light from them is reflected, or gives such a glare that the program cannot correctly recognize the line. If there is a need to scan such an object, then such parts will have to be masked with something (washable paint, paper tape, etc.).
2 - it is more convenient to scan monotonous objects, since when the camera is set to a light color, the projector's brightness is not so high, the exposure is low, etc. And a dark-colored object needs more brightness, so if you have a multi-colored object, then different parts of it require different settings to get the best result. Here, too, it is more convenient to use scanning the object in parts.
3 - if you want to immediately get a color texture, then please note that the settings of the camera and the projector for scanning do not affect the settings for removing the texture (the scan is generally done in black and white mode), so play around with the settings in the texture mode just as you would do in scan mode.
My scanning process now looks like this:
- Focusing the projector and camera
The projector's light is too bright and the projected grid is not visible in the photo, but here is the view from the camera in the program
- scanner calibration
printed on magnetic paper - so you can very quickly adjust to different sizes of scanned objects.
Software view
It is recommended that the combined angle between the beam of the projector and the camera be around 20 degrees. Therefore, such a stand is used - when scanning large objects (for example, a person), the camera should be set aside much further from the projector, but here they are close to me. The location of the camera relative to the projector can be only vertical, or only horizontal, depending on the geometry of the object. In this case, the arrangement is diagonal (13 degrees vertically and 36 degrees horizontally).
Scan results from different angles.
These are already cleaned up scans, i.e. all unsuccessful and unnecessary parts (figure stand, mount that got into the frame) parts have been removed.
Combining scans for subsequent merging into one object
Due to the fact that each scan has its own color, it is convenient to control the correct alignment.
Well, after combining the scans from different angles, we get the following models
Miniature of Boromir from Lord of the Rings.
When scanning a multi-colored object, the result is slightly worse if you don't bother too much. But then you can get an object with a texture right away :) , even fingerprints people scan. And there are even scans of the same miniatures from Warhammer
In conclusion, I would like to say that no matter what hardware you use, no matter what expensive 3D scanner you buy, this is not a panacea for printing anything. Theoretically, of course, you can send the resulting object to the slicer and print, but there are several reasons why you should not do this, but in any case, you should study 3D graphics packages.
1 - The resulting scans, with good scan quality (and we want to get the best quality) have a lot of polygons. No, even is VERY a lot. The scan of Boromir after the merger contained more than 8 million polygons - not every slicer will be able to work with such an object.
2 - Any objects bear traces of assembly and manufacture. And if in reality needle files and sandpaper are used to fix this (and sometimes there are still inaccessible places where it is impossible to use tools), then working with a digital copy of an object, we can change it as we like - remove defects, improve detail, etc. .
3 - As I said at the beginning of the article, when I thought about the scanner, I did not want to print copies of objects, but change them as I please. I am not a sculptor, I do not have the tools, materials and skills to sculpt such a small model. But knowing how to work in 3D, it is much easier for me to scan a similar Boromir and make him some kind of Prince of Denmark.
By the way, this model already contains almost 100 times fewer polygons than the scan result.
Naked Labs 3D Scanning Mirror helps you track your fitness progress - DFKit
Naked Labs, a Silicon Valley startup, today introduced the world's first consumer fitness tracker, the Naked 3D Fitness Tracker, which scans the entire body. The high-tech physical activity tracking system consists of a 3D full-length scanning mirror, a rotating platform scale and the Naked mobile app.
Many of us pay too little attention to our body, it's good if one or two hours a week. The sad truth is that we could do much better. We set ourselves the goal of losing weight or gaining physical mass, but without proper motivation, all our good intentions come to naught. One of the main problems that bodybuilders, gym goers and dieters face is the simple inability to see the difference in the mirror after several hours of intense training.
When we see in the mirror the same – as it seems to us – figure, an insidious thought creeps into our heads: why do I need all this? With the naked eye, it is impossible to notice the slight changes that occur to our body after each workout.
If we do not have a detailed "before and after", we lose the idea of how we looked yesterday, a week or a month ago. Moreover, we always evaluate ourselves from a winning position, no matter how much we spin in front of the mirror.
Naked Labs has developed a unique fitness device Naked 3D Fitness Tracker that solves all of the above problems. It consists of a full-length 3D scanning mirror, a rotating platform scale and a dedicated smartphone app. The user stands on the scale and slowly rotates around its axis for 20 seconds. The mirror does a full 3D scan of your body. The resulting 3D model can be viewed from all angles in the Naked mobile app, which also reports the exact weight and percentage of body fat.
Viewing your body in 3D is much more informative than in a mirror, but much better results can be achieved if you use the Naked Labs invention regularly. The smart mobile app, available on iOS and Android, can process 3D scan data in a variety of ways. For example, users can open a heatmap that clearly shows muscle/fat areas and even generate a time-lapse video that shows body changes.
If it's not enough for you to just look in the mirror to track your progress, then this video is just what the doctor ordered.
“We think the biggest benefit of a fitness tracker is that it helps you keep track of your progress,” says Farhad Farahbakhshian, CEO and co-founder of Naked Labs. – With Naked 3D Fitness Tracker, you can immediately see how and where the body is changing. The uniqueness of our system is that it encourages a person to take action, helps to restore health and achieve goals through the visualization of progress on the example of a 3D model of one’s own body.”
While the idea of seeing your own body in such detail seems intimidating, users of the Naked 3D Fitness Tracker Trial have found the process of tracking physical activity addictive and motivating. “Some beta testers were able to build muscle mass, others were able to lose weight and improve their health,” says Farahbakhshian. “Our pregnant clients have seen their bodies change over the course of several months.
