Health has always been a hot topic of concern. The rise of wearable devices, led by Jawbone and the Fitbit smart bracelet, has made people more and more keen to track their health data. However, tracking is not the same as understanding. If you want to know your exact physical condition, people still need to go to the hospital for an examination, and the cost of getting it difficult and expensive is often discouraged by others – there is still a long way to go between recording health and truly knowing health. How to combine the two so that people can track and measure their basic conditions earlier is still an obstacle that cannot be ignored between health and medical care . Now, research has broken this gap – in Houston, which has the world's largest medical center, scientists are developing new devices that combine health and medical care, not only for ease of operation but also for ease of mass production. They call it: Scalable Health Initiative. Located in Houston, Texas, Texas Medical Center is the world's largest medical center, receiving more than seven million patients from all over the United States and around the world, including the most in the United States. One of the outstanding medical schools, Baylor College of Medicine. Close to such a unique and advanced resource, Rice University is a famous engineering school in the United States, and the research team here is continuing to provide technical support to the Texas Medical Center. Today, wearables and mobile devices are hot, Professor Ashutosh Sabharwal of the School of Electronic Engineering at Rice University and his team are working with experts at the Medical Center to develop new mobile medical devices from user-testable health. . A few days ago, I had the privilege of interviewing Professor Sabharwal to showcase the latest developments in this field and the prospects of developers for emerging medical approaches. The Scalable Health Initiative: stepping on the pain points of medical and health Improve traditional medical methods from mobile devices In the modern society where technology is rapidly developing, our existing medical model still continues the same method as the 1960s: appointment, registration, medical treatment, and further examination of the patient's basic indicators through various instruments for further diagnosis. Among them, some tests that cannot be carried out outside the hospital have become one of the reasons people have to come to the hospital, and those cumbersome and expensive testing instruments have earned high inspection costs for the hospital. It also costs a lot of maintenance costs and manpower and resources. Professor Sabharwal said that from this background, if a patient can perform some basic tests at home and go directly to the hospital with the results, it can reduce many cumbersome procedures and save treatment time. Mobile medical devices can improve this problem so that patients can get a good idea of ​​their symptoms before they arrive at the hospital. Therefore, the mobilization of medical devices is the result of both doctors and patients' expectation of more effective medical treatment methods - and is also the driving force behind the Scalable Health Initiative. From focusing on chronic diseases, cutting into measurable health Chronic diseases can not be cured because of no effective prevention methods and current technology. In particular, long-term and regular monitoring and tracking are needed to control the disease and prevent complications. Repeated visits to hospitals often prevent people from controlling the disease in time. However, the portability of mobile medical devices and professional testing anywhere, anytime can improve this phenomenon. Therefore, common chronic diseases such as diabetes and asthma have become the main entry points for Professor Sabharwal's research group in this field. Diabetes has been plaguing people for more than 30 years. Patients can only repeatedly measure blood sugar by blood glucose, determine whether their condition needs to go to the hospital for further testing, and prevent complications in time. Among a series of complications, eye diseases are the first to be diagnosed. The probability of blindness in diabetics is 25 times that of ordinary people, and the longer the course of disease, the greater the chance of blindness. However, only through the blood sugar level and the patient's subjective feelings can not effectively know the health of the eye. At the same time, asthma is also true. Once stimulated by the outside world, asthma patients are prone to morbidity, seriously affecting the patient's ability to move and awareness. Therefore, continuous medication and timely adjustment of the dose according to the condition, and found that the treatment is very necessary for patients with chronic diseases. So, in the ScalableHealth Initiative, from focusing on the eye problems of people with diabetes to tracking the medications of asthma patients, researchers are developing portable devices that allow people to simply collect exercise data and burn calories to truly measure their health. Referring to the current research results, Professor Sabharwal expressed his willingness to share the existing progress and hope to attract the attention of the industry to health and medical care. The following five articles of the Scalable Health Initiative will be briefly introduced. Venlo structure is a popular one at present. This architecture uses horizontal girder as main bearer, forming a stable structure with columns. There is consolidation between horizontal girder and column, and hinge is used to connect column and foundation. Pc Board Venlo Greenhouse,Venlo Greenhouse,Venlo Type Pc Sheet Greenhouse JIANGSU SKYPLAN GREENHOUSE TECHNOLOGY CO.,LTD , https://www.spgreenhouse.com
In Venlo greenhouse, foundation is made of reinforced concrete and the side wall is made of brick or reinforced concrete plate. The steel frame always use hot dip galvanized light steel. Roof beam adopts horizontal girder structure and using herringbone connection. The horizontal girder bears 2 or more roofs, which is made of aluminum alloy. This material is used as roof structure material and also glass inlay material. Other beams using gutter style to minimize the section. Delighting material of the roof and side wall using the hollow double-layer or multilayer PC board.
PC board is mainly made of PC/PET/PMMA/PP materials, it need sun screen coating to resist ultraviolet resist and ageing, and it is also required to be anti condensation and antidrug.
As a kind of light material, use PC board can greatly reduce the weight of greenhouse structure, and corresponding reduced the size of the steel frame, which saving the cost of steel.
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