Providing Accsense Wireless Temperature Monitoring and Alarm Systems CHESTERLAND OH-January 23, 2012Alaska's Department of Health and Social Services recently chose CAS DataLoggers and its advanced Accsense systems to provide the temperature monitoring solution for the extensive Alaska Immunization Program which had distributed vaccines to Alaskans for over three decades, all at no cost to providers. The program's 26 remote public health centers handled both storage and dispensation of critical medicines and vaccines as part of an ongoing universal vaccine distribution program for childhood and adolescent vaccine-preventable disease control and prevention. The organization needed to maintain its vaccines at a temperature constant of 35??F to 46??F (2??C to 8??C). Most of the centers contained at least one medical refrigerator and freezer, with some sites requiring additional monitoring. The organization's requirements for such a system were demanding in view of these extremely sensitive supplies, so a prospective solution had to be highly accurate, securely encrypted in line with HIPAA privacy law, and easy to use.The Department discovered Accsense and CAS DataLoggers while they were searching for a hassle-free automated monitoring solution. The remote clinics soon purchased and installed 30 Accsense A2-05 Ethernet Wired Temperature Measurement Pods, connected to medical refrigerators and freezers to provide convenient monitoring for every unit in the clinics. Management picked Accsense systems over every other monitoring system on the market because their high accuracy and turn-key operation entirely replaced the need for expensive training sessions or IT department involvement-staff just plugged the pods in and let them run. Constant worries over regulatory concerns raised by manual temperature checking were immediately made obsolete. Advanced alarm features enabled email, text and even phone messages whenever temperatures went out of specification. Users could also login using any Web browser to retrieve reports and graphs or modify the system's configuration from anywhere Internet connection was available.Each monitor included a power adapter and Ethernet cables, supporting power over Ethernet for a lower cost and easier maintenance compared to traditional wiring, and personnel soon became knowledgeable in every aspect of the system's operation. These cost-effective temperature pods entirely replaced the clinics' old alarm systems, increasing safety measures and decreasing staff response times while automatically sending their data to the secure servers at Accsense, which encrypted all the data. In case of a power failure or network connection loss, these wireless pods could keep running for 6 hours on their internal lithium batteries, during which the data loggers would continue to buffer data. CAS also provided value-added tech support to the program as it got up and running with its new monitoring and alarming technology.This installation now handles continual monitoring of all vaccines in inventory and will continue to safeguard them in future, functioning as a good model for state of the art medical monitoring. CAS helped the Department stay informed throughout their selection process and also provided free technical support to help personnel get the best use out of their new system.CAS DataLoggers has also provided monitoring solutions for other demanding clients including the Cleveland Clinic Foundation, New York Hospital Queens, Stanford Hospital and Clinics, the Smithsonian Institute, and the US Navy Medical Center, among many others.
Most of us may have already heard about genetically engineered crops, vegetables and fruits, with soybeans and corn being the most common. However, have you heard of genetic engineering in animals? The truth is that genetically engineered animals are already on our grocery shelves and supermarkets.Genetic engineering has its pros and cons. GE advocates point out that genetic modification of plants and animals helps to create more-improved and disease or drug-resistant organisms. GE critics however, counter that genetic modification has not yet been fully tested to be safe and healthy, and the US government, through the Food and Drug Administration (FDA) is not even keen on labeling GMO crops, fruits and animals. This means that the public won't know if the food they consume is genetically modified or not.What exactly are genetically engineered animals? GE animals actually have bits and pieces of their DNA structure altered, and may even have foreign DNA inserted into them, to make them stronger and healthier, as well as to produce other results. Proponents of genetic engineering say that the process makes animals grow faster and become more disease-resistant. For example, some pigs have been inserted with omega-3 fatty acids, to make them much healthier to consume.Genetic Engineering In Animals - Are We Messing With Our Food?Is genetic engineering in animals safe? Critics counter that messing with Mother Nature poses great risks, both to the consumer and the environment. It's quite hard to tell if genetic engineering is safe or beneficial, since most genetically modified animals have not been fully tested in humans, thus it makes the modification process one huge human feeding experiment. The main question that we should pose instead to GE proponents is, does the world actually need genetically-modified animals in the food supply? Or is genetic modification only benefiting a few wealthy corporations and bio-tech firms?The FDA considers genetic engineering of animals as a process of inserting new DNA into animals. Since the DNA inserted becomes part of the animal, the FDA classifies the animal, and its by-products, as drugs. If the labeling law goes into effect, the wealthy biotech companies will have to prove the safety of their products, before the GMO by-product is sold in the market. This means that the pigs injected with omega-3 fatty acids should be labeled properly, so that consumers will know.Why Mothers Are Telling The Experts To Stop Playing With Genetic Engineering In FoodThe biggest concern for consumers, especially parents, is the safety of genetically modified food. Many parents are worried how a GE animal is tracked and monitored, and what the possible long-term health effects are. A public interest group, the Center for Science in Public Interest, states that companies should adopt a national animal identification program, to record and store information on GE animals.But even if the appropriate safeguards have already been introduced, many parents still have second thoughts of feeding their kids with GMO animals. Majority of parents are in agreement that genetic engineering in food should be curtailed, or if not, strictly regulated by the government.
The polymerase chain reaction is a process of increasing or enlarging extremely small amounts of DNA so that they can be seen or can be used in various scientific processes. PCR is generally used in various branches of biology, food science, and forensic science, environmental science and many more. There are several techniques used in medical and biological research, which includes diagnosis of hereditary diseases, identification of fingerprints, and to detect infectious diseases.DNA forensics relies heavily on PCR.
PCR is considered as one of the most suitable DNA testing methods. This is basically used to classify the DNA of a person by using extremely small samples. How is this possible? This is possible because the device will increase the size of DNA that will somehow be visible to the eyes of the person performing the tests. This process is perfect for legal investigations and crimes. This is because there are fewer samples and other techniques would not be able to detect DNA other than this technique. There are several cases of crimes that are solved using the process of polymerase chain reaction.There are instruments and machines that are being used in the entire process of increasing small amounts of DNA so that they can be visible. These machines can be of various types and they vary according to their usage. They perform different types of functions.
For instance, instruments like Gas chromatography (GC) is used to split and examine compounds that can be vaporized without decomposing.This machine contains several components such as carrier gas line, gas flow controller, column, detector and data interface. Apart from these, there are machines such as thermal cycler that is used in to increase the size of the segments of DNA. You might have noticed that there are impurities and elements in air that can be disastrous to the samples on which different types of experiments are being performed. So it becomes impossible to remove impurities, so this is where laminar flow is used, as these enclosures prevent the samples from coming in touch with the impurities that are found inside the laboratory.PCR lab equipmentsare one of the needed machines that are mandatory for any laboratory, as it is important to maintain the veracity and safety of the laboratory in which the scientists are working for. And moreover, it is important to understand the importance of such equipments; as if these are not present the scientists won't be able to get the desired results.
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Stereolithography (SL) technology, which is the oldest Additive Manufacturing technologies, is gaining momentum in the prototyping world thanks to its new materials exhibiting thermoplastic-like performances. This additive fabrication process not only allows for intricate part designs but also delivers functional prototypes, which eases concept part testing. Design engineers now save a huge amount of time when they test a design concept. Not so long ago Stereolithography SL resins were much too brittle to allow for e.g. evaluating the impact resistance of a prototype. Thanks to the many advances of Additive Manufacturing technologies, and thanks to the significant reduction of the time-to-market they bring to part designers, the also-called Rapid Prototyping industry is growing fast and reached US$ 1.1 billion in 2009.With an annual growth of more than 20% and benefiting from further technical advances on materials, the Rapid Prototyping and Rapid Manufacturing technologies will show even more in the next decades. A new wave of opportunities has already spread into this fast growing industry: the production of short runs. AM technologies in general, and Stereolithography in particular, are now more than ever used to produce a limited number of parts, even when it deals with e.g. complex design of spare parts. The injection molding of plastic parts is not competitive when only a few parts are needed because the steel mold cannot be amortized. This is one of the reasons why the AM technologies including Stereolithography technologies are well suited for the aerospace industry. For the same reason the medical sector is also widely using stereolithography and the other Rapid Prototyping and Rapid Manufacturing technologies. Because every patient is unique, dental implants and other hearing aids will always be produced on demand, and drawings will change from one patient to another.Even though the SL technology is making progress in handling short runs and producing limited amount of spare parts, it is still mainly used in the prototyping world. Following T. Wohlers, a renowned and well-known expert in the AM technologies, there are roughly 70% of parts using AM technologies being sold as prototypes or unique models1. Despite the growing interest towards the manufacture of tailor-made parts there were also some key advances made these past years on materials to improve the performances of prototypes. It is now easy to get functional prototypes. Resin producers developed special resins for AM technologies to make them closer to the serial production resins - even if these AM resins will never be the exact offset of injection molding grades experts now talk of e.g. ABS-like properties materials. Other AM resins were also developed to increase heat resistance or improve transparency. All these improvements were conducted to allow functional testing. It is not only possible to quickly get a complex 3D shape plastic part in hand quickly. It is also possible to assess the functional design.Some of these SL resins are even USP Class VI approved, which is of great help when OEMs and device manufacturers develop medical functional prototypes. From the prototypes to the first tens of parts, which will go through severe functional testing procedures, the use of medical approved resins makes the transition very easy. These material advances help to speed-up the development phase and bring more flexibility to part designers and part development project managers.
Any biotechnology business plan is really a map featuring the way the start-up corporation can get with the principle to the marketplace, plus biotech consulting is helpful in this process that usually consists of 60 to 70 web pages. The top parts of the master plan usually are; an extensive outline from the products inside techie lingo; advancement as well as examining required to match the diverse Fda standards clinical trials; a marketing and advertising section which examines the item?s planned remedy for disorders or perhaps actual troubles duplicated by way of statistical data; this estimated receptivity on the market; as well as the7-year personal expenditures needed from day one to the point of truly offering this product like salaries. Information concerning intelligent asset concerning the item should also always be incorporated into a good Appendix.Biotech medical firms consider venture capital corporations to obtain the required investment finance regarding medical. Getting close any venture capital corporation involves a comprehension from the investment capital firm?utes finance procedures, along with the methodology helpful to examine the opportunity. The value of biotech consulting should not be embellished as of this step. The venture capital neighborhood is usually a strongly hooked up set; consequently Biotech start-ups intent to make a primary feeling that is certainly powerful as well as optimistic.Expansion capital organizations wish to deposit biotech providers using innovative thoughts, solid in addition to encountered administration clubs, along with genuine business plans. This Biotech start-ups need to understand this stresses plus involves manufactured by your investment capital firm?s traders. Most investment capital companies are convinced that acquiring powerful operations groups of which buyers confidence is among the biggest capital key elements. The actual Biotech start-ups need to understand the actual stresses along with requirements that cash invested in its ground-breaking idea will pay-off. A few expansion capital agencies are capable of tug throughout additional businesses that get expertise in financing many studies or maybe creating strategical relationships to biotech businesses together with experience with comparable engineering.Some sort of Biotech start-up needs a new capital raising company that is open-minded and future-oriented inside their work to locate technology. One particular expansion capital organization, ARCH, has followed the particular running theory which ?As we have faith in the scientific disciplines, we'll make idea for you to the business probable.?This biotechnology salary agenda will start during $45,500 a great basic level Biologist, and $46,000 with an elementary Biochemist. The biotechnology salary selection for any Biostatistician is from $105,1000 to $158,1000. Your average income for just a usual Biotech Company Growth Home is definitely $135,Thousand, plus its $89,Thousand to get a Biomedical Architectural Supervisor along with experience.
The US represents the world's largest biotechnology market, leading with its innovation, extensive R&D, and regular company developments in various spheres of the biotechnology sector. On the back of rising instances of innovations in the information technology, world-class healthcare infrastructure, and active participation by private players, the US biotech industry has grown stupendously in the past few years.The report, "US Biotech Market Analysis", covers the Medical Biotechnology, Agricultural Biotechnology, and Industrial Biotechnology segments of the sector. The research finds out which is the largest segment in the biotechnology sector, and why. It also discusses the wider role of the technology. According to our report, biotech funding has been a major source of growth in the US biotech industry as venture capital and financing by other sources continue to provide the momentum. The structure of financing has been strengthening over the past few years with IPOs, FPOs, public and private sector, and venture funds contributing significantly to the industry developments. Rising focus of companies towards drug development, increasing coverage of various diseases, and significant market potential are some of the prominent factors propelling investments in the recent years. market research reportsThe report also elaborates the important Bio-clusters prevailing in the US and analyses their growth. It observed that California accounted for the highest growth and attracted maximum funds for research activities. How much employment this cluster generated in the biopharmaceutical sector, has also been covered in the study.Biotechnology is a priority sector for the government, which has been backing significant developments in the industry. The report identifies key trends in the sector. Of these, bio-similars are found to drive the market positively. It also highlights the competitive landscape in the US biotechnology sector, and lists significant developments of the key players in the segment.The report finds that the future outlook of the US biotech sector is positive with a substantial amount of investment expected in the research and entrepreneurship development in near future.List of Figures:Figure 2-1: Global - Biotechnology Market (Billion US$), 2010-2014Figure 2-2: Biotechnology Market (Billion US$), 2010-2014Figure 2-3: Share of Public and Private Sector Companies in Biotech Industry (2010)Figure 2-4: Bio-pharmaceutical Exports (Billion US$), 2005 & 2010Figure 2-5: Bio-pharmaceutical R&D Expenditure (Billion US$), 2007-2010Figure 2-6: Farm Scale Revenues from Major Genetically Modified Crops (Billion US$), 2008-2010Figure 2-7: Ethanol Production (Billion Gallons), 2009-2014Figure 4-1: Biotech Financing (Billion US$), 2007-2010Figure 4-2: Biotech Financing by Type (%), 2010Figure 5-1: Massachusetts - Share in US Biotech Venture Capital Investment (2007-2010)Figure 5-2: Massachusetts - Number of Drugs under Development PhasesFigure 5-3: New York - Employment in Biotechnology R&D (2007 & 2010)Figure 6-1: Number of Clinical Trials by Phase (2010)Figure 6-2: Number of Clinical Trials by Disease Area (2009)For more information kindly visit :US Biotech Market AnalysisOrBharat Book BureauTel: +91 22 27810772 / 27810773Fax: + 91 22 27812290Email: firstname.lastname@example.orgWebsite: http://www.bharatbook.comFollow us on twitter: !/Sandhya3B
The time is to think beyond component sourcing with next generation optical element design and complete prototyping services. The expertise of electronic design professionals has simplified the opto-mechanical systems to a great extent. Apart from quality, the cost of products is another most important consideration while someone opts for the supplies from optical manufacturers. And, that is the reason why it is essential to come up with quality assurance keeping the dexterity within budget. Not only the companies, but nowadays the individuals with requirements for lens design are involving the professional consultants to simplify their tasks. Let's find how the lens design consultants are actually contributing in the biomedical industry! With advancement of biotechnology, the laser scanning system requires non-contact measurement with superior sensitivity in addition to the microarray images in high resolution. Besides, in metrological practice, the microarray biochip images essentially need ultra wave sensor or optical detector in the imaging system. In order to perfectly address such advanced biomedical needs, the development of micro-meter focusing, and scanning lenses are now in practice. An electronic design consultant works with the customer specific development protocols to come up with highly tailored solutions, which in turn enable the company to provide with cutting edge metrology tools at appreciably lower prices. The biomedical instruments such as microscope, mass spectroscope, blood gas analysis system, and others extensively use illumination and micro imaging systems. In non-contact metrology, the unique property of telecentric lens is used by the professional lens designers. The lens characteristically maintains constant magnification over a specific range of object distance. A lens design consultant suggests using this mechanism to get accurate dimensional measurement, especially for the inspection of three dimensional or 3D objects. The concept is not really that new but has recently been implemented in optical metrology to avoid inherent distortions and attain optimum accuracy. However, it is difficult if not impossible to get the accuracy in measuring the object's position, length and straightness if the defined telecentric depth is not maintained. The professional electronic design consultants serve their customers, individuals and companies whoever require the expertise, with advanced techniques and technologies. They mostly provide with complete subsystem production and prototyping solutions for a variety of devices. Precision is accomplished by using state of the art engineering tools and devices. Their keen observation to the minute details of opto-mechanical systems enables the manufacturers and users to answer many important questions about the structures and functions of the devices more efficiently. No matter whether it is a small or high volume production, the consultants are there to support the ventures from every possible aspect. Starting from simple optical sub-assemblies to the design and development of next generation metrology tools, a professional electronic design consultant can help materializing the ideas with great precision. However, one cannot expect the superior quality service from just about any consultant or service providers as the skill set depends solely on reflective knowledge and profound experience. However, not to worry, a little Google search should yield the options to attain ultimate optometric solution from the renowned experts.
Accsense Cloud-Based Wireless Solution Monitors Medical FreezersCHESTERLAND OH-March 14, 2012Pharmacies across the country constantly work to comply with increasingly demanding FDA regulations, especially 21-CFR part 11, in the storage of their temperature-sensitive life science products. Unfortunately, medical freezers often fluctuate in temperature due to uneven cooling and prolonged door opening among other causes, and these risks can be tough for staff to identify--is the door opening too frequently or is something else to blame? CAS DataLoggers now offers pharmacies an ideal solution with the Accsense A1-08 Wireless Temperature Data Logger, an automated wireless temperature monitoring and alarming system designed to protect customers' life science materials. This wireless pod can connect to 6 NTC thermistor inputs monitoring at the critical -40??C (-40??F) range, significantly reducing user cost per measurement. The Accsense system provides users with cloud-based data storage and reporting and also serves as a convenient temperature alarm system complete with email, pager, and phone alert capabilities. Combined with the Accsense B1-06 Wireless Data Logger Gateway, these cost-effective data loggers offer customers a complete wireless monitoring system with the ability to view and remotely access data in real-time, transmitting recorded temperature data online for easy storage and analysis. Accsense automated monitoring eliminates the need for manual recording and is much less expensive, more reliable, and offers more data storage and regulatory documentation.The wireless pod's internal ambient temperature sensor has a temperature range of -40??C to +70??C (-40??F to 158??F), and features 6 NTC thermistor inputs monitoring across -40??C to +112??C (-40??F to 233??F). Offering 2 digital inputs, the A1-08 pod can be connected to a wide variety of digital sensors to provide effortless and dependable online monitoring, including alarms indicating when the freezer is open. Offering pinpoint data logging accuracy to protect valuable samples and goods, all the Accsense system's temperature measurements are made at a highly precise 0.1??C resolution, and the user-set sampling rate can be anywhere from 30 seconds to every 24 hours. In this way, intelligent alarms can be configured to trigger if 3 samples in a row see that the door is open; alternately, alarms can be set to trigger when only 1 sample reveals an open door. To deal with sudden power outages, each pod has an emergency buffer of 250 samples per sensor. The multi-thermistor pod's range extends out to 250 ft. outdoors and 90 ft. indoors without obstructions, and the datalogger can run on either battery or AC power.The Accsense system's advanced functionality offers users online graphing, reporting, and configuration features essential for compliance with 21-CFR part 11 and legal liability by closely monitoring and recording sensitive goods in storage. All the system requires is an RJ45 Ethernet connection with open internet access to start recording, entirely removing the need for troublesome installation and wiring. Accsense wireless dataloggers automatically send all recorded data to Rackspace, the manufacturer's completely secure cloud server, where it is immediately stored and available using a backed-up online Accsense Account. Customers' accounts give instant access to charts showing all measurement history with ranges as narrow as 5 minutes or as wide as 90 days, and also offer a customizable interface with a dashboard showing the most recent measurements from all sensor pods. Measurement data can also be downloaded for offline analysis. Since all the data instantly goes out to the Web, Accsense is the only system on the market that has virtually NO impact on the existing infrastructure, including server structure, IT overhead, and only a minimal impact on bandwidth.The wireless gateway includes FREE software and feature upgrades, with no software installation or firewall configuration required. Manual vertical scaling allows for consistency across multiple graphs and samples. Using an online account subscription with each gateway, users can plot measurement history and analyze tabular data. The secure servers can also send out configurable voice, text or email alarms (with premium subscription) to inform the supplier and authorized staff when a temperature reading falls out of range--the same alarm can even be sent to multiple locations! Additionally, data sent online can be downloaded as a CSV file and loaded into most database applications, and users can quickly download measurement data for offline analysis and grant password-protected, limited access to other operators. The gateway's internal data storage can even compensate in the event of Internet outages. Using a standard web browser, users can sign in to access reports and graphs or modify the system configuration from anywhere an internet connection is available.Each A1-08 wireless pod comes delivered in a package containing an AC adapter, wall mounting and bracket, a standard antenna, 3 AA batteries, and more, providing a simple yet reliable temperature monitoring system.
We at Researchchemicals4u make no secret of the fact we have a wide variety of plant food chemicals, some of which, at first glance, seem remarkably similar. What, for example, is the difference between nrg-2 and nrg-3? Well, a chemist would say it??????s the R-groups ?????? the reactive part of the structure. NRG-2 is more potent than nrg-3, but acts in a different way.The reason these chemicals work at all is because they were originally developed to enhance neurotransmitter action in humans, and amazingly, plants have the same neurotransmitters - for example norepinephrine, dopamine and serotonin. Just as in mammals, norepinephrine is released in response to stress, forcing the plant to manufacture sugars and grow faster (the reason being, so it can propagate itself sooner ?????? the obvious way to escape danger is to grow somewhere else.) Serotonin is routinely produced in a range of plants including plantain, pineapple, banana, kiwifruit, plums, and tomatoes. It??????s also found in stinging nettles and tobacco plants, as well as some herbal remedies. However, its effect as a natural antidepressant is doubtful, as plant serotonin can??????t cross the blood-brain barrier.What is now known for certain is that when stimulated or stopped from being ??????switched off,?????? these transmitters have a beneficial effect on plant growth and propagation. It is for this reason that scientists buy NRG-3 ?????? to develop new plant foods. You may wonder why they don??????t just use NRG-2, as it??????s so potent. The reason is the same as for humans ?????? more isn??????t always a good thing.If plants are stimulated into growth too quickly, it places a heavy demand on nutrients in the soil. If these nutrients are readily available, the plant can suffer from ??????fertiliser burn?????? ?????? literally overdosing on soil chemicals. This can dry out the roots and even kill the plant. Sometimes, less potent research chemicals provide better results than highly active ones.
An improved algorithm of structural images of biological object for optical coherence tomography, which allows to increase the depth of coherent sensing and get a better quality picture. Optical coherence tomography (OCT) has emerged in the late eighties, early nineties of the twentieth century.  At the beginning of XXI century, it took its place in a number of medical diagnostic equipment. OCT uses optical signal reflected from the surfaces of different optical density, and in many ways is similar to ultrasound (U.S.) diagnosis. The probing depth of dense tissues OCT systems using wavelength ?? = 900 - 1300 nm, is 1-2 mm, which is significantly less than that of ultrasound systems [2, 3] and X-ray devices . Due to the strong scattering of optical radiation in the dense biological tissues, OCT systems are used primarily for the study of the cornea, vitreous and retina. However, the resolution of OCT systems for one, two orders of magnitude higher resolution ultrasound systems for similar research, which is about 1 - 0.1 mm . The aim of this work - to provide an improved algorithm for constructing the structural OCT images of biological object to allowing to increase the depth of coherent sensing and an image with high contrast and informative. Electrical signal received from the detectors OCT included in the balanced circuit, is amplified and digitized by the ADC mean intensity of the radiation reflected from the biological object. Preparation of 2-axis images of the interference signal is reduced to the construction of a spectrogram. The spectrogram is a function of two variables: time and frequency. That is, the interference signal as a function of one variable (time) is converted into a spectrogram is a function of two variables. To construct a spectrogram interference signal is divided into short time segments of equal length. Each of these segments is applied fast Fourier transform (STFT, among LabVIEW). At each of the segments of the spectrum is a complex-valued function of sample number (or time). It is known that a complex-valued function can not be built in one coordinate system in the plane. Therefore, the analysis of the spectrum usually build amplitude and phase spectra of any signal. The amplitude spectrum is a module of the complex spectrum and the phase - his argument. The spectrogram is a combination of the amplitude spectra, calculated on short segments, a function of two variables, or matrix. Similar treatment algorithm is shown in Figure 1. The algorithm can distinguish five fundamentally important stages: "Splitting the signal", "Fourier transform", "Isolation of the envelope", "The logarithm of the envelope", "Writing data to the matrix" Figure 1 - The processing algorithm of the electrical signal from the detectors optical coherence tomography The next stage of the signal processing is to use the fast Fourier transform to each segment. Since the path difference scanning interferometer arms varies continuously scanning optical delay line, theoretically window Fourier transform, must also move continuously at one point, but it makes the signal processing is quite long, on the order of minutes. Empirically, it has been shown that the signal processing is shifted to the window of 70-80% has the same contrast ratio as well as the continuous shift - to a point. It takes 2 - 5 seconds when using a computer with average parameters (single-core processor 2.4 GHz, 512 MB RAM). Using a powerful computer and specialized software, this time can be reduced to one second. This approach delivers images in real time and visual feedback when using live biomedical facility. Signal processing is shifted windows by 70-80% - is an important feature of our proposed treatment of the electrical signal.  The next stage of the signal processing is to separate the spectral envelope of the signal received by the Fourier transform of each segment. An important feature of the received signal is its symmetry with respect to zero,the optical path difference of the waves. This is explained by the fact that the result of the Fourier transform is complex function, the real part of which is symmetric, and the imaginary antisymmetric. Since in real applications is a real part of the signal or its magnitude, the reconstructed signal has a balanced view. In addition to the symmetry of the signal spectral OCT has another important feature - the imposition of a mirror of the complex conjugate signal. If the optical path difference between the reference wave and the wave of the biological object is zero useful signal is superimposed on the autocorrelation component, in which case there will be multiple image artifacts. This can be avoided by placing biological object so that his first boundary was removed from the position of zero path difference of the waves in the interferometer by an amount greater than the optical thickness of the object itself.  The next stage will be the logarithm of the envelope interference signal of each segment. It is necessary to correct symmetry. When logarithm removed part located below the zero path difference of the waves. The final step is to combine the processing of amplitude spectra, calculated on short segments in the matrix. The data basis for this matrix imaging. Literature