Update 20- May 18,2015
The internal competition was held on May 8th, where all 15 groups presented their projects to 4 external judges. We ended up in the top groups and are encouraged to enter the BMEStart competition. With that, we took many of the comments into consideration when putting the final touches on our design. Our current iteration has 6 sensors connected to our PCB and has 3 layers of insole material instead of 2. We also increased the Bluetooth connection so that the insole better communicates with the computer. By the end of this week, we plan on getting a few more components to change the gain and reduce our software to scale down to 5 volts. We also are trying to find a smaller power source to add a more comfortable all-inclusive insole. Lastly, right now there is a bit of a delay on the information from the insole to the code, so we are working on adding real time data.
Update 19- April 28, 2015
We have completed the PCB and got it printed by the EE department, we have also discussed soldering the parts together with them and they agreed to help us with it. Also because of the recent situation of the lost insole, we have reordered the LilyPad, the battery, and the bluetooth. Thus, we have been delayed as we are waiting for the new parts to arrive.
Update 18- April 21, 2015
This week we have found an expert in PCB design who helped revise our design and informed us that the EE department can manufacture our circuit board. This week we are also troubleshooting our insole and trying to get it to match in multiple software. This is a challenge for us because as of right now we do not have the PCB board and the soldered parts are not very stable.
Update 17- April 12, 2015
This week we have finished the design for our Printed Circuit Board; however, we have come across a few issues with ordering it. The company that we would like to order our PCB from is expressPCB and it would cost $95 to order 3 of the boards. The issue we have came across was that the company does not have a phone number, address, or any information besides an email that we can contact them through. After much pleading, we did receive and address from the company. We also found a student teacher who is teaching a course on PCB design who is willing to work with us to be sure that the design is exactly how we want it to be and that we have not made any mistakes in the design process. After design is approved and meets the criteria we have set, we will order it and begin testing with it as soon as it arrives. Shown below is the completed PCB design. Meanwhile as we wait for the PCB to be shipped we have started testing the insole with the components all together, however we have come across a few issues.
Update 16- April 2, 2015
The group had its first presentation which included a PowerPoint went over the issue our product aims to address, a brief discussion of the engineering behind it, the financials of the overall company, and a demonstration of the device. This went over well, however we ran into a few problems in terms of the device and what we would like to see in terms of data collection. The group is working this week to address some of these problems and to make progress toward a sleek and functional final iteration.
Update 15- March 10, 2015
This week we did some more testing, however instead of using the voltage peak to peak we started doing weight testing by measuring the resistance. We also decided to use a load cell instead of balancing weights to calibrate the sensors. We also made headway on the LilyPad Code and Matlab.
Update 14- March 2, 2015
Since the group has decided not to go with the 3D printed part to protect our circuit, we have instead decided to go with some sort of moldable polymer to mold over our circuit. We are considering options such as simply silicone caulk, which is both flexible and waterproof. This will probably be our first option since it is cheap and easy to obtain. The other options we were considering are polymorph beads which can be molded into a clay like consistency and formed over the LilyPad. Silicone has its advantages because it is generally non-reactive, stable, and resistant to extreme environments and temperatures while still maintaining its properties.
For our first iteration, we have two layers of material with a cut-out for the arduino. We plan to add a cut-out for the bluetooth because that stays attached to the arduino while in the insole. We have some testing to make sure the LilyPad will not break, however more will be done in the future to be more accurate.
We have also done more weight testing and found somewhat of a gold standard for average gait pressures. Right now the weight testing has been complicated because there is a lot of variations between all the trials. This week we have been trying to debunk the reason however we have not come up with a solution that will suffice the issue. We are also making some headway with the LilyPad code as well as with Matlab.
For our first iteration, we have two layers of material with a cut-out for the arduino. We plan to add a cut-out for the bluetooth because that stays attached to the arduino while in the insole. We have some testing to make sure the LilyPad will not break, however more will be done in the future to be more accurate.
We have also done more weight testing and found somewhat of a gold standard for average gait pressures. Right now the weight testing has been complicated because there is a lot of variations between all the trials. This week we have been trying to debunk the reason however we have not come up with a solution that will suffice the issue. We are also making some headway with the LilyPad code as well as with Matlab.
Update 13- February 19, 2015
This week we had a meeting with Dr. Park and Dr. Bao to discuss the information we received from the podiatrist. With that information, we concluded that we needed to go in a different direction with our project but still keep the general idea. We decided that we wanted to take out the vibration motors because they have no use to our project. The idea is to keep the product as an insole and the pressure sensors to detect the weight distributions, however we want to add more sensors to calculate shear stress/force. It would also be geared first towards podiatrists and with positive feedback we will move it into the public market. After the meeting, we also decided that making a 3D printed cap to protect the electrical components, would not be the best idea because it may not be able to hold the load that is put on it without breaking on top of the parts. We also went into the teaching lab twice, once to fix the sensor circuit and another time to condition and calibrate the sensors to specific weights.
Update 12- February 13, 2015
This week the group met with one of the clinicians that we got in contact with. His perspective on the foot and our project in general was that if we try to correct gait, it might result in impairing other muscles in the foot. He taught us a lot about the biomechanics of the foot along with how orthotics were made. His observations matched the second clinician that we contacted in that you will not be able to "correct" gait without causing pain in another part of the foot. As a result, the group decided that it would be a bad idea to continue in this direction. So what we decided to do was create a diagnostic for plantar fasciitis and orthotics that the user could be sure the individual has a correct and accurate orthotic so that there is no further damage on the foot.
Update 11- February 11, 2015
The group has made final decisions regarding the material of the insole and is the process of ordering Spenco Spencore material. As illustrated in previous updates, this material is shock absorbent and reduces impact on the foot, and is ideal for maximizing the comfort of the user. This decision was made after the group was able to agree on a method to shield the components of the circuit. We decided that at this point, the option would be to 3D print a cover for the electrical components in order to protect them from damage. Because we were able to make these final decisions, we feel confident going forth and buying the material. The group is currently working on making progress toward a solidworks model for the 3D printed parts.
Update 10- January 30, 2015
This week, we updated the name of the website, and our company. We changed it from The Gaiters to a more professional company name Interactive Orthotics INC. We are also working on updating our FAQ/troubleshooting page so that individuals who do not have a Smartphone can operate the user-friendly product just as easily as those who do have a Smartphone.
We also made some progress towards finding average gait pressures but not sufficient enough, so more research is needed to be done. With that we have contacted clinicians in regards to getting some of our questions answered and hopefully make progress to have accurate data. We have a meeting with a local clinician next Tuesday that will hopefully clear the air on some information needed to further progress in our device. With that being said if we cannot find the pressure values we would use the gait cycle as a way of measurements.
Another milestone that we have achieved this week was coding the arduino. This week we coded the arduino to have the vibration motors vibrate every second. With that agile development we then coded the LilyPad so that it does what we wanted it to do, however we are in the process of changing to code so that we can add in the average gait pressures that we researched. The next step is to calibrate the sensors and hopefully getting them to work the way we want. Also we came up with a way to shield the components which will be put into practice. Lastly, we have decided to order the material of the insole and start working on getting the parts to fit accurately in it.
We also made some progress towards finding average gait pressures but not sufficient enough, so more research is needed to be done. With that we have contacted clinicians in regards to getting some of our questions answered and hopefully make progress to have accurate data. We have a meeting with a local clinician next Tuesday that will hopefully clear the air on some information needed to further progress in our device. With that being said if we cannot find the pressure values we would use the gait cycle as a way of measurements.
Another milestone that we have achieved this week was coding the arduino. This week we coded the arduino to have the vibration motors vibrate every second. With that agile development we then coded the LilyPad so that it does what we wanted it to do, however we are in the process of changing to code so that we can add in the average gait pressures that we researched. The next step is to calibrate the sensors and hopefully getting them to work the way we want. Also we came up with a way to shield the components which will be put into practice. Lastly, we have decided to order the material of the insole and start working on getting the parts to fit accurately in it.
Update 9- January 23, 2015
This week, we obtained the weights we needed for testing from the Physics department and began to work on testing and calibrating our sensors in the teaching lab. In addition to that, we worked on assembling the circuits. We want to work on combining them with the sensor circuit on the breadboard . In order to avoid damaging the breadboard, we wanted to ensure that each of the circuits worked individually and worked together on the breadboard we’ve been testing on before transferring them to the arduino.
We also made progress with our cell phone application. Originally, we began the coding with a program that one of the group members found but we were having a hard time using it. We ultimately decided to use another program called the MIT app inventor 2. We now have a functional home screen in which users can click to get to the other pertinent sections of our application. We will continue to work on these and fill them out with the information we want to see in the application, and we will ultimately have this connected to the device on our arduino in order to allow data pertaining the user’s gait to be shared with the app.
Additionally, we met with our business students to discuss the executive summary, to set goals for both the engineers and business students in terms of completing assignments for the remainder of the quarter. We discussed details about the project and about the design competitions we are planning to enter. The business students made a suggestion regarding the device and a FAQ/troubleshooting page on the website in order to supplement information for users who may not not have smartphones or access to the cell phone application.
We also made progress with our cell phone application. Originally, we began the coding with a program that one of the group members found but we were having a hard time using it. We ultimately decided to use another program called the MIT app inventor 2. We now have a functional home screen in which users can click to get to the other pertinent sections of our application. We will continue to work on these and fill them out with the information we want to see in the application, and we will ultimately have this connected to the device on our arduino in order to allow data pertaining the user’s gait to be shared with the app.
Additionally, we met with our business students to discuss the executive summary, to set goals for both the engineers and business students in terms of completing assignments for the remainder of the quarter. We discussed details about the project and about the design competitions we are planning to enter. The business students made a suggestion regarding the device and a FAQ/troubleshooting page on the website in order to supplement information for users who may not not have smartphones or access to the cell phone application.
Update 8- January 16, 2015
Week two of winter quarter was spent ironing out logistical details as the group is still waiting on the parts. We are making final decisions about materials for the insole. The group decided that we would like to a bit more research about some other aspects of the insole before ordering the material it will be made of. This way, we can be sure about the final design of that aspect of the design.
The last time the group was together during the testing of the force sensors, it was determined that standardized weights/masses were necessary in order to calibrate the sensors. We decided to contact our university's physics department to see if they had anything we could use. We were ultimately able to arrange the use of some of their weights and masses.
Additionally, we have begun the process of putting together our applications for design competitions. We have compiled the existing data we have on the plantar fasciitis and how we plan to address the problem. We will continue to work on this throughout the quarter and into next quarter.
Finally, the group has set up meetings with our adviser to update and discuss our progress with him. We have also arranged for meetings with our business students, Brian and Ainsley, in order to go over our plans for the business aspect of our design and to collectively discuss the executive summary.
The last time the group was together during the testing of the force sensors, it was determined that standardized weights/masses were necessary in order to calibrate the sensors. We decided to contact our university's physics department to see if they had anything we could use. We were ultimately able to arrange the use of some of their weights and masses.
Additionally, we have begun the process of putting together our applications for design competitions. We have compiled the existing data we have on the plantar fasciitis and how we plan to address the problem. We will continue to work on this throughout the quarter and into next quarter.
Finally, the group has set up meetings with our adviser to update and discuss our progress with him. We have also arranged for meetings with our business students, Brian and Ainsley, in order to go over our plans for the business aspect of our design and to collectively discuss the executive summary.
Update 7- January 9, 2015
This was our first week of Winter Quarter! As we mentioned in the previous update, we did some more research and work over our winter break. With that we have come up with the material that we are going to us for the insole itself. This material was tested to prove it was the most effective decrease of plantar pressure and allow for relief. The benefits of the material (according to the manufacturers) we have picked are that it is resistant to decay and odor, absorbs vertical forces, torque, and lateral shear, as well as preventing ulcerations, blisters, and callosites. In a paper written about this material they also mention that this material reduced pressure by 51% to prove that it is effective in relieving plantar pressure. Also based on our budget, this material was cost effective and reliable.
We also have 2 new members on our team, Ainsley and Brian, who are our business consultants. They are here to help us with the business aspect of the project. So far we have discussed our goals and strategies to not only get our product into the market but for it to also be successful. As of right now we only have our market strategy, but by the end of the quarter we will have a business plan set.
Lastly, we have ordered our parts on December 5 and are waiting for them to arrive so that we can build our circuit and start the coding process. Hopefully we get them as soon as possible so that we can be on schedule to have a working model by the end of next week. In the meantime we also created a CAD blueprint of our design to show the circuit and how everything is connected.
We haven't met with any professors thus far but we are planning to get help from the CS department for the coding section because this is an unfamiliar space for most of the group.
We also have 2 new members on our team, Ainsley and Brian, who are our business consultants. They are here to help us with the business aspect of the project. So far we have discussed our goals and strategies to not only get our product into the market but for it to also be successful. As of right now we only have our market strategy, but by the end of the quarter we will have a business plan set.
Lastly, we have ordered our parts on December 5 and are waiting for them to arrive so that we can build our circuit and start the coding process. Hopefully we get them as soon as possible so that we can be on schedule to have a working model by the end of next week. In the meantime we also created a CAD blueprint of our design to show the circuit and how everything is connected.
We haven't met with any professors thus far but we are planning to get help from the CS department for the coding section because this is an unfamiliar space for most of the group.
Update 6- December 6, 2014
During this last week, the group worked on a of couple things. Danielle carried out the elevator pitch in front of the business students on Wednesday. The pitch lasted for 60 seconds and there was time for questions at the end. From this experience, we began to think about the market we will be entering, and who we can identify as competitors, investors, and who we will target our product toward.
In addition to that, the group met on Friday in the teaching laboratory. The group focused on a proof of concept with the sensors we obtained from Belinda. We were able to set up the circuit from our blueprint and observe the sensor working as we applied pressure to it. We concluded that the next step is to obtain standardized weights in order to calibrate and obtain a standard with respect to the sensors.
The sensors that we are testing with, however, will not be included in the final design. We have compiled an order list containing all the parts we need, including force sensors that are specifically made for the purposes of our project. We filled out and submitted our order form and can begin working with those parts as soon as they arrive.
The group is working on researching materials to be used for the insole itself. We have not yet decided which material we want to go with but we are looking into various competitors and researching what will best for us in terms of price and our particular purpose. For the first iteration, we are planning to buy a Dr. Scholl's insert and simply carving that out. But the final design will include a moisture/humidity proof material for the insole.
We are currently setting our goals and agenda for winter break as we are planning to continue to work together and utilize that time.
Dr. Anvari suggested that we not meet this week and instead begin to plan for and set our regular meetings for the Winter quarter so we can come back from the break and be prepared to update him on the progress we made.
In addition to that, the group met on Friday in the teaching laboratory. The group focused on a proof of concept with the sensors we obtained from Belinda. We were able to set up the circuit from our blueprint and observe the sensor working as we applied pressure to it. We concluded that the next step is to obtain standardized weights in order to calibrate and obtain a standard with respect to the sensors.
The sensors that we are testing with, however, will not be included in the final design. We have compiled an order list containing all the parts we need, including force sensors that are specifically made for the purposes of our project. We filled out and submitted our order form and can begin working with those parts as soon as they arrive.
The group is working on researching materials to be used for the insole itself. We have not yet decided which material we want to go with but we are looking into various competitors and researching what will best for us in terms of price and our particular purpose. For the first iteration, we are planning to buy a Dr. Scholl's insert and simply carving that out. But the final design will include a moisture/humidity proof material for the insole.
We are currently setting our goals and agenda for winter break as we are planning to continue to work together and utilize that time.
Dr. Anvari suggested that we not meet this week and instead begin to plan for and set our regular meetings for the Winter quarter so we can come back from the break and be prepared to update him on the progress we made.
Update 5- December 2, 2014
This week we focused on getting our elevator pitch ready for the business students. Danielle rehearsed it and finalized it to be short and understandable for the elevator pitch presentation in class on Wednesday.
We were also able to get a hold of our grad student Belinda, who gave us samples of the sensors that we plan on using so that we could test our circuit before we start purchasing a large quantity and to also test if the sensors have the capabilities to handle the amount force applied. We plan to test these sensors sometime this week.
We have been working hard to get the coding aspect of our project, however we are having some trouble and are looking to seek out an expert in the computer science department. Hopefully they could give us feedback on our code thus far and answer questions that we have. As far as right now, we have sample codes that are giving us a head start on how to code certain parts.
We couldn’t meet with Dr. Chomko, so we emailed him with some questions and we got answers that helped us further understand the circuit and what we should do when we build and test the circuit. He also clarified some notes that were made during last week’s meeting, which also helped narrowing down our parts and simplify the circuit for now.
One goal we had last week was to find a material for the insole to house all the components. We have a few materials that we are looking into and are interested in purchasing, but more research needs to be done before we finalize our choice of material.
Some good news we got this week was that we got approval on our blueprint, which allows us to start purchasing our parts.
We also met with Dr. Anvari to update him with our progress and explain what our goals are for this week.
We were also able to get a hold of our grad student Belinda, who gave us samples of the sensors that we plan on using so that we could test our circuit before we start purchasing a large quantity and to also test if the sensors have the capabilities to handle the amount force applied. We plan to test these sensors sometime this week.
We have been working hard to get the coding aspect of our project, however we are having some trouble and are looking to seek out an expert in the computer science department. Hopefully they could give us feedback on our code thus far and answer questions that we have. As far as right now, we have sample codes that are giving us a head start on how to code certain parts.
We couldn’t meet with Dr. Chomko, so we emailed him with some questions and we got answers that helped us further understand the circuit and what we should do when we build and test the circuit. He also clarified some notes that were made during last week’s meeting, which also helped narrowing down our parts and simplify the circuit for now.
One goal we had last week was to find a material for the insole to house all the components. We have a few materials that we are looking into and are interested in purchasing, but more research needs to be done before we finalize our choice of material.
Some good news we got this week was that we got approval on our blueprint, which allows us to start purchasing our parts.
We also met with Dr. Anvari to update him with our progress and explain what our goals are for this week.
Update 4- November 25, 2014
This week we met with Dr. Chomko and altered our circuit according to specific parts we decided to use. These included making it simpler and narrowing down the count of the components that we will be using. Following the meeting with Dr. Chomko, we redrew the blueprint; hopefully we get approval soon, so that we can complete our first iteration before week 2 of winter quarter.
We also canceled our weekly meeting with Dr. Anvari, in order to make progress on the coding aspect of our project as well as have an even more complete and finalized blue print and timeline to show Dr. Park.
We also met with Jill again this week in order to rehearse our elevator pitch, which we edited based on her comments from last week. These included making it shorter and more understandable for students that are not familiar with this field of work. She gave us feedback along with sample questions that could be thrown at us during the actual presentation of the elevator pitch.
Another goal we achieved this week was starting our business plan and identifying our market based on the guest lecturer that we had in class on Wednesday.
Lastly, our goals for this week are to finalize our blueprint, which we need to add the coding aspect of both the app and the circuit. We also came across another idea that could be implemented in our project that would add to the novelty of it, however it needs to be further explored and finally we are looking into potential materials that could be used for the insole.
Over thanksgiving break, we plan to have Skype meetings in order to make progress and complete our goals.
We also canceled our weekly meeting with Dr. Anvari, in order to make progress on the coding aspect of our project as well as have an even more complete and finalized blue print and timeline to show Dr. Park.
We also met with Jill again this week in order to rehearse our elevator pitch, which we edited based on her comments from last week. These included making it shorter and more understandable for students that are not familiar with this field of work. She gave us feedback along with sample questions that could be thrown at us during the actual presentation of the elevator pitch.
Another goal we achieved this week was starting our business plan and identifying our market based on the guest lecturer that we had in class on Wednesday.
Lastly, our goals for this week are to finalize our blueprint, which we need to add the coding aspect of both the app and the circuit. We also came across another idea that could be implemented in our project that would add to the novelty of it, however it needs to be further explored and finally we are looking into potential materials that could be used for the insole.
Over thanksgiving break, we plan to have Skype meetings in order to make progress and complete our goals.
Update 3- November 18, 2014
This week we tested our preliminary circuit in the teaching lab, however we ran into some issues that will be discussed with our EE expert, Dr. Chomko. We reworked the circuit and drew up a new circuit and schematic that showed how all the components come together in unison. For example, where everything would be connected with reference to the pins on the breadboard. Along with that we modified our timeline to include all the components of the design project such as the electronics, coding, manufacturing/parts, and meetings. We also completed a parts list where we have all the components that we need to order along with the vendors.
We also met with Jill and rehearsed and refined our elevator pitch to accommodate the business students. The team adjusted the flow of the elevator pitch because it was well written yet when presented, it was too technical and detailed for a 60 second pitch.
This week, we did research on patents, related prior art, and discovered aspects of our project that may have potential intellectual property. We covered safety and ethical considerations, and discovered that we need to go through the institutional review board (IRB) in order to approve or monitor our research because it considers research or testing on humans.
We also met with our advisor, Dr. Anvari, who reviewed our progress thus far. We explained our new and improved blueprint, which he liked and approved. Also, he answered a few questions that we had about circuits.
Lastly, we added a first year graduate student in ECR, with a B.S. in Bioengineering, Belinda Le, to our team to give us input and feedback on the circuitry, along with some advice on the way.
We also met with Jill and rehearsed and refined our elevator pitch to accommodate the business students. The team adjusted the flow of the elevator pitch because it was well written yet when presented, it was too technical and detailed for a 60 second pitch.
This week, we did research on patents, related prior art, and discovered aspects of our project that may have potential intellectual property. We covered safety and ethical considerations, and discovered that we need to go through the institutional review board (IRB) in order to approve or monitor our research because it considers research or testing on humans.
We also met with our advisor, Dr. Anvari, who reviewed our progress thus far. We explained our new and improved blueprint, which he liked and approved. Also, he answered a few questions that we had about circuits.
Lastly, we added a first year graduate student in ECR, with a B.S. in Bioengineering, Belinda Le, to our team to give us input and feedback on the circuitry, along with some advice on the way.
Update 2- November 11, 2014
Collaboration with Faculty
Adviser: Dr. Bahman Anvari
Expert: Roman Chomko
Progress toward completion of an overall project timeline
A timeline has been completed and can be turned in at the specified time. The fall quarter is mapped out with great
detail, while the winter and spring quarters have major goals listed. Detail will be added at a later time, with more
information.
Initial script for an elevator pitch
Plantar fasciitis is a common problem in adults, marked by intense pain in the heel. This disease is degenerative
and without proper treatment, will lead to other health problems. To address this, a gait diagnostic
is being developed: the diagnostic tool is a shoe insert that the user can wear and use on a daily basis. Operation
is quite simple, turn on the power source and begin walking. As the user walks, force sensors detect the distribution
of weight on targeted areas of the foot. For the user’s convenience, the device comes with a phone app, relaying
real time information which can be recorded, stored, and given to a medical professional, such as an orthopedic
surgeon or occupational therapist. Used properly, this diagnostic tool can help the user understand proper walking
habits.
References
Adviser: Dr. Bahman Anvari
Expert: Roman Chomko
Progress toward completion of an overall project timeline
A timeline has been completed and can be turned in at the specified time. The fall quarter is mapped out with great
detail, while the winter and spring quarters have major goals listed. Detail will be added at a later time, with more
information.
Initial script for an elevator pitch
Plantar fasciitis is a common problem in adults, marked by intense pain in the heel. This disease is degenerative
and without proper treatment, will lead to other health problems. To address this, a gait diagnostic
is being developed: the diagnostic tool is a shoe insert that the user can wear and use on a daily basis. Operation
is quite simple, turn on the power source and begin walking. As the user walks, force sensors detect the distribution
of weight on targeted areas of the foot. For the user’s convenience, the device comes with a phone app, relaying
real time information which can be recorded, stored, and given to a medical professional, such as an orthopedic
surgeon or occupational therapist. Used properly, this diagnostic tool can help the user understand proper walking
habits.
References
- Chambers, Henry G., MD. "A Practical Guide to Gait Analysis." Journal of the American Academy of Orthopaedic Surgeons10.3 (2002): 222-31. Web.
- Razak, Abdul. Sensors 12 (2012): 9884-912. MDPI - Open Access Publishing. 23 July 2012. Web. 20 Oct. 2012.
- Roxas, Mario, MD. “Plantar Fasciitis: Diagnosis and Therapeutic Considerations.” Alternative Medicine Review 10.2 (2005): 83-93. Web. 20 Oct. 2014.
- Stovitz, Steven D., MD. "Hyperpronation and Foot Pain." The Physician and Sports Medicine 32.8 (2004): n. pag. The Physician and Sports Medicine. Aug. 2004. Web. 20 Oct. 2014.
- Woodburn, J., SRCh. "Observations on the F-Scan In-shoe Pressure Measuring System." Clinical Biomechanics 11.5 (1996): 301-04. Elsevier. Elsevier, 24 Nov. 1996. Web. 20 Oct. 2014.
Update 1- November 7, 2014
This section will house our weekly updates. Most of the information will be fairly general because of potential intellectual property. For any questions, comments, or concerns, visit the Contact page.
The project is young and subject to change, but these updates should give a general understanding of what we have accomplished each week.
The project is young and subject to change, but these updates should give a general understanding of what we have accomplished each week.