Juniper Systems & Effigis Provide Effortless, Economical Sub-Meter GPS Accuracy

Juniper Systems & Effigis Provide Effortless, Economical Sub-Meter GPS Accuracy


Logan, Utah (PRWEB) September 30, 2014

Juniper Systems, rugged handheld personal computer manufacturer, and Effigis, geomatics solutions provider, have partnered to supply a potent, but affordable solution to effortlessly capture and post-procedure GPS data to attain sub-meter accuracy.

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Effigis’ OnPOZ Precision Positioning Computer software suite requires advantage of the superior GNSS efficiency Juniper Systems’ Archer 2™ rugged handheld offers to collect high-accuracy GPS information. Initial, EZTag CE™ software is utilized on the Archer two to capture GPS field data points. The data is then sent to a desktop pc, exactly where EZSurv® Post-Processing Software program automatically post-processes the information to achieve final results with sub-meter accuracy. EZSurv requires the hassle out of post-processing, requiring only the click of a button to run.

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Juniper Systems’ Archer 2 is the excellent information collection tool for this computer software due to its ruggedized design and style, enabling it to perform nicely in any environments, as effectively as its enhanced GNSS receiver, which offers a reliable signal, even in heavy tree canopy.

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“Achieving sub-meter GPS accuracy typically has two barriers in people’s minds. 1, the hardware and computer software are usually high-priced. And two, the thought of post-processing tends to make a lot of individuals cringe. The OnPOZ suite, on the other hand, is effective, but comes at a price people are comfy with, and it requires care of all the post-processing for you,” mentioned Jim Benson, Utilities &amp Public Services Marketplace Manager at Juniper Systems. “The Archer 2 handheld actually finishes off the complete package. Its GNSS receiver is outstanding, performing reliably even beneath trees, and the handheld is so properly developed, you can count on it to work properly in any environment.”

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To discover far more about the Archer 2 and OnPOZ Precision Positioning Application suite, click right here: http://bit.ly/1CB4VtF.

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About Juniper Systems:&#13

Primarily based out of Logan, UT, USA and Birmingham, UK Juniper Systems designs and manufactures rugged handheld computers and provides field data collection solutions for use in extreme environments. Considering that 1993, Juniper Systems has provided revolutionary mobile technology to organic sources, utilities and public solutions, geomatics, agriculture, industrial, and military markets. For much more info on Juniper Systems merchandise, please check out http://www.junipersys.com.

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About Effigis:&#13

For far more than 20 years, Effigis, a rapidly-developing business based in Montreal, Canada, has been a recognized leader in geospatial solutions. Drawing upon professional sources, Effigis designs, develops and executes novel geospatial solutions (GNSS application, Earth observation solutions, infrastructure inventory, telecommunications network monitoring, geological studies) aimed at enhancing its customers’ company processes. Effigis serves a range of sectors, such as public administration, aeronautics, agriculture, environment, forestry, consulting engineering, mining, oil and gas, public utilities and telecommunications.

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Worcester Polytechnic Institute Participates in Clinical Trial for MRI-Compatible Robot Designed to Improve Accuracy of Prostate Cancer Biopsies

Worcester Polytechnic Institute Participates in Clinical Trial for MRI-Compatible Robot Designed to Improve Accuracy of Prostate Cancer Biopsies


Worcester, Mass. (PRWEB) September 18, 2014

A novel robotic system that can operate inside the bore of an MRI scanner is presently being tested as part of a biomedical analysis partnership system at Brigham and Women’s Hospital in Boston with the aim of figuring out if the robot, in conjunction with true-time MRI photos, can make prostate cancer biopsies more rapidly, a lot more accurate, much less costly, and less discomforting for the patient. The novel method also has the prospective to deliver prostate cancer therapies with greater precision.

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Created by a team of robotics engineers at Worcester Polytechnic Institute (WPI) in collaboration with colleagues at Johns Hopkins University, Brigham and Women’s Hospital (BWH) and Acoustic MedSystems Inc., the robotic technique is being employed in the BWH Advanced Multimodality Image-Guided Operating suite (AMIGO).

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“Prostate cancer is the final kind of cancer nonetheless diagnosed with blind needle biopsies, so we are operating to alter that with image-guided technology,” stated Clare M. Tempany, MD, professor of radiology at Harvard Medical College, chair of research radiology at Brigham and Women’s Hospital, and principal investigator for the analysis plan. “The ultimate aim of our group is to create enabling technologies that extend the capabilities of physicians to treat their individuals.”

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The “first-in-human” testing of the robotic technique is also the culmination of much more than six years of investigation and improvement by Gregory Fischer, associate professor of mechanical engineering and robotics engineering at WPI and director of WPI’s Automation and Interventional Medicine (AIM) Robotics Analysis Laboratory. Fischer has pioneered, along with Iulian Iordachita and colleagues from the Laboratory for Computational Sensing and Robotics (LCSR) at the Johns Hopkins University, the development of compact, higher-precision surgical robots that are expressly created to perform in the atmosphere inside the bore of an MRI scanner, as properly as the electronic manage systems and computer software required to operate the robots with the security, reliability, and ease of use essential of technologies made for the operating space.

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“The robot offers the physician a fantastic deal more choice about where to location the biopsy needle,” Fischer stated. “This technology ought to permit greater accuracy, and the odds of hitting the target on the initial attempt ought to be greater. The anticipated result is fewer needle placements with greater sensitivity, a more quickly process, significantly less want for repeated biopsies, reduced all round cost, and lowered discomfort for the patient.”

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Presently in the United States, most prostate biopsies are performed in conjunction with ultrasound imaging. Whilst an ultrasound scan can localize the prostate, the imaging modality can not determine exactly where the possible cancer could be. As a result, the biopsies are performed randomly with repeated needle insertions looking for to take away samples from the cancerous tissue. These procedures endure from low sensitivity and could create misleading final results. In truth, about 35 percent of significant tumors may be missed in the course of initial biopsies that are guided solely by ultrasound. Simply because of the higher error rate, patients often require to return for repeated biopsies as their symptoms persist and their tumors continue to grow.

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MRI, on the other hand, can create detailed anatomical and tissue-characterization images of the prostate and detect potentially cancerous lesions. For that reason, there is substantial interest nationally in establishing techniques for making use of actual-time imagery from MRI alone or in conjunction with ultrasound to guide the insertion of needles for prostate biopsies. Sooner or later, if the robotic technologies proves powerful, it could effortlessly be adapted to provide therapies straight to the tumors within the prostate, Dr. Tempany noted.

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In biopsies now conducted as portion of a Brigham and Women’s program without having the new robot, physicians use a plastic grid to aid position the biopsy needle. They very first use multi-modality MRI scans to generate a strategy showing exactly where the needle ought to be inserted, then with the patient in the MRI scanner, the doctor directs the needle by means of most appropriate guide holes in the grid. Added scans are made periodically to verify the path of the needle and make adjustments, if required.

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Rather than restrict the needle positioning to the selections offered by the grid, WPI/JHU ‘s MRI-compatible robot manipulates a needle-guide inside the bore of the scanner to aid the physician spot the needle in the most optimal position as indicated by the actual-time pictures generated by the MRI.

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To develop robots that can function inside an MRI scanner, Fischer and his team have had to overcome numerous substantial technical challenges. Most important, considering that the scanner includes a effective magnet, the robot, including all of its sensors and actuators, should be produced from non-ferrous supplies. The robot utilized in the prostate cancer trial is constructed mostly of plastic parts and uses ceramic piezoelectric motors. In addition, a low-noise WPI-developed custom control method and nicely-shielded wiring support to avoid the emission of electrical signals that could mar the MRI photos. The robot need to also be modest sufficient to match in the cramped confines of the MRI bore and still leave room for the patient and the clinician’s hands. “On leading of all this, we had to create the communications protocols and software interfaces for controlling the robot, and interface those with greater-level imaging and preparing systems,” Fischer stated. “That added up to a huge systems integration project.”

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Making a system that can be used in clinical practice added another layer of complexity, Fischer mentioned. To commence with, the robot should be effortless for a non-technical surgical group to sterilize, set up, and location in the scanner. “It requirements to be straightforward to use and foolproof,” he stated. “It needed numerous iterations of the hardware and software to get to that point.”

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In addition, the program contains very enforced workflows to guarantee that procedures are carried out in the right order and the identical way every time the technique is utilized. The method also has robust error detection to alert the staff ought to a cable turn into unplugged or other unexpected problems take place. “We wanted to be certain that an error will trigger the robot to safely stop,” Fischer stated, “but we also wanted to the technique to be in a position to recover and continue, if feasible, with out possessing to start off the process all over again. We spent a wonderful deal of time on risk mitigation, figuring out all of the techniques the system could fail and what we would do in every and every single case.”

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The test of the robot system is an important component of a larger clinical investigation plan at Brigham and Women’s Hospital funded by a Bioengineering Research Partnership award from the National Institutes of Overall health through the National Cancer Institute.* Beneath way because 2006, the system has received much more than $ 7 million in NIH help for improvement of an FDA-approved image-guided platform for use with MRI or ultrasound, which can help in baseline imaging, diagnostic biopsy, and remedy of prostate cancer.

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In Fischer’s AIM lab (aimlab.wpi.edu), work is also under way on a next-generation robotic system that, in addition to positioning a needle guide, will also robotically actuate the insertion and assist steer the needle to a target of interest. “We hope to be in a position to test that system with sufferers in a year or so,” Fischer says. “We are also hunting forward to collaborating with Brigham and Women’s Hospital and other partners to test the use of our program not just in prostate cancer diagnosis, but to provide therapy, whether or not brachytherapy or ablation therapy.”

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WPI’s modular MRI-compatible robotic system can be readily adapted for other surgical applications. For instance, Fischer is the principal investigator on a $ three million R01 award from the National Cancer Institute, through which he and a team that includes colleagues at Albany Healthcare College, the University of Massachusetts Healthcare School, and Acoustic MedSystems are establishing a robotic technique that, guided by true-time MRI imagery, will insert a probe although a dime-sized opening in the cranium to destroy brain tumors employing interstitial higher-intensity focused ultrasound.

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*”Enabling Technologies for MIR-Guided Prostate Interventions,” NIH project No. R01CA111288-09

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About Worcester Polytechnic Institute

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Founded in 1865 in Worcester, Mass., WPI is one particular of the nation’s first engineering and technologies universities. Its 14 academic departments provide much more than 50 undergraduate and graduate degree programs in science, engineering, technologies, business, the social sciences, and the humanities and arts, leading to bachelor’s, master’s and doctoral degrees. WPI’s talented faculty function with students on interdisciplinary analysis that seeks solutions to crucial and socially relevant difficulties in fields as diverse as the life sciences and bioengineering, power, information safety, components processing, and robotics. Students also have the chance to make a difference to communities and organizations around the globe by means of the university’s innovative Global Perspective System. There are far more than 40 WPI project centers the Americas, Africa, Asia-Pacific, and Europe.

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About Brigham and Women’s Hospital

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Brigham and Women’s Hospital (BWH) is a 793-bed nonprofit teaching affiliate of Harvard Health-related School and a founding member of Partners HealthCare. BWH has much more than three.5 million annual patient visits, is the largest birthing center in Massachusetts, and employs practically 15,000 men and women. The Brigham’s medical preeminence dates back to 1832, and today that wealthy history in clinical care is coupled with its national leadership in patient care, good quality improvement and patient safety initiatives, and its dedication to investigation, innovation, neighborhood engagement and educating and education the subsequent generation of well being care specialists. Through investigation and discovery conducted at its Brigham Research Institute (BRI), BWH is an international leader in simple, clinical and translational investigation on human illnesses, much more than 1,000 doctor-investigators and renowned biomedical scientists and faculty supported by almost $ 650 million in funding. For the last 25 years, BWH ranked second in study funding from the National Institutes of Overall health (NIH) amongst independent hospitals. BWH continually pushes the boundaries of medicine, like developing on its legacy in transplantation by performing a partial face transplant in 2009 and the nation’s very first complete face transplant in 2011. BWH is also property to major landmark epidemiologic population studies, including the Nurses’ and Physicians’ Well being Research and the Women’s Overall health Initiative.

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Make contact with:&#13

Michael Cohen&#13

Worcester Polytechnic Institute&#13

Worcester, Massachusetts&#13

508-868-4778, mcohen(at)wpi(dot)edu&#13

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Patent Lawyer Stuart M. Goldstein Helps Client Acquire a Patent on a Surgical Device designed to Improve Accuracy and Security in Vertebrae Repair and Attachment

Patent Lawyer Stuart M. Goldstein Helps Client Acquire a Patent on a Surgical Device designed to Improve Accuracy and Security in Vertebrae Repair and Attachment


(PRWEB) September 15, 2014

Marlton, New Jersey, Sept 9, 2014 – New Jersey Patent Attorney, Stuart M. Goldstein, of the law firm of Ricci Tyrrell Johnson &amp Grey, PLLC, has been productive in acquiring the issuance of U.S. Patent No. 8,774,911 from the United States Patent and Trademark Workplace. This patent’s medically revolutionary design for a pedicle locator instrument is invented by Dr. Lee M. Buono of Marlton, New Jersey, a board certified neurosurgeon specializing in minimally-invasive spine surgery.

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Precise pedicle location is important to the repair and attachment of vertebrae in spinal procedures. Pedicles are stems or stalks of tissue that connect components of the body to each other. It is vital that they are identified properly and that exact points of entry are confirmed in order to guarantee the correct placement of pedicle screws in bony vertebrae structures.

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At the moment, surgeons use regular image guidance systems along with x-ray identification. Nonetheless, there are a number of significant disadvantages that can result from this procedure – longer and far more pricey operative occasions as properly as a greater possibility to patients of infection, stress sores, blood loss, and dangers connected with common anesthesia and radiation burn. In addition, inaccurate placement of pedicle screws can lead to considerable anatomical malpositions. The objective of the design and style and function of the new pedicle locator instrument is to overcome the disadvantages of the current technique and improve accuracy and efficiency in pedicle place.

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Since non-pedicle materials have diverse dielectric constants than pedicles, the essential to this invention is the detection of this difference in density in particular locations. This pedicle locator instrument senses and compares the dielectric constants of both non-pedicle and pedicle supplies. It then can accurately detect pedicles and target their precise locations amongst the various bony structures, specifically in cervical, thoracic and lumbar bodies.

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The inventor, Dr. Buono, is excited about the beneficial potentials of the pedicle locator instrument for both the surgical group and the patient: “First and foremost, the predictive accomplishment in performing pedicle fixations will improve as will the security and surgical outcome to sufferers.” The use of this locator instrument is simple. “It is a self-contained, manually-operated, non-invasive instrument,” says Dr. Buono. “Simply place, its component measures the static permittivity of pedicle material within bony vertebral structures. Its internal circuitry senses the subtle differentials in non-pedicle and pedicle components, and reports the benefits by indicator lights on the instrument. The surgical team can then accurately and confidentially pinpoint the locations for acceptable pedicale fixation.”

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It is through the expertise of New Jersey Patent Lawyer Goldstein in matters involving a range of health-related, industrial, and consumer goods, as properly as gear and systems inside the mechanical, electrical, and marine disciplines, that makes him the patent lawyer clientele like Dr. Buono seek out in order to get patent protection for their inventive goods and improvements.

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Mr. Goldstein oversees the Intellectual Home Department of Ricci Tyrrell Johnson &amp Grey in their southern New Jersey and Pennsylvania offices, specializing in patent and trademark law. Mr. Goldstein’s solid background, expertise, and technical understanding in the mechanical, electrical-mechanical, and marine arts began with his B.S. in Marine Engineering from the United States Merchant Marine Academy at Kings Point, New York, in 1972.

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For six years, he worked as a patent examiner in the U.S.Patent and Trademark Workplace in Washington, D.C., attaining major examiner status. Considering that 1978, he has been registered to practice before the U.S. Patent and Trademark Office as a patent lawyer (Registration #22817), handling patent application prosecution and connected litigation.    

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As a New Jersey-based patent specialist, Mr. Goldstein advises makers, companies, and individuals on item design, improvement, and integrity, guiding them efficiently by means of the complicated patent approval method, worldwide. Says Mr. Goldstein, “If an invention is new and valuable, if it can be created, and if it has possible worth, it need to be patented. When you are seeking to shield your original invention or an improvement on existing technologies, you need to safe intellectual home ownership rights. Safeguarding future commercial achievement starts with obtaining a patent in order to defend these worthwhile rights. More than the years, I have noticed the consequences to inventors who do not receive patent protection, of opportunities lost, and the loss of investment, time, power, marketing and advertising possibilities and ownership. With patent protection, your creative item or improvement becomes your exclusive property. And the rewards that come with it can be substantial.”

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Mr. Goldstein’s representative patent regions incorporate all types of mechanical and electrical goods and improvements, approaches and systems: for example, construction tools and gear, cleaning tools and appliances, electrical lighting and switches, household appliances, plumbing and electrical tools, appliances and associated equipment, hardware and gardening tools, conveyor systems, automotive products and accessories, vessel and marine-related products and systems, recreational and leisure-associated goods, and healthcare devices and appliances.

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Amongst the most current technical patents that have received patent approval by way of Mr. Goldstein’s professional guidance are the Method for Piling Remediation (U.S. Pat. No. 8,734,058), a process for repairing and restoring help pilings broken by key storms the Self-Contained Tool Bolt (U.S. Pat. No. 8,393,841), a distinctive connection device with an integrated torque-increasing manage the Interchangeable Address Signage Program (U.S. Pat. No. 8,333,027), which provides the homeowner with the versatility to modify address numbers and signage designs the Photo Motion Machine (U.S. Pat. No. eight,244,117), a method for producing video from high speed digital images the Child Security Seat Method (U.S. Pat. No. 8,154,395), which provides notice to drivers of parked vehicles of the presence of a child in a auto seat the Camera Integrated Firearm System (U.S. Pat. No. 7,937,880), developed to photograph or video record the scene simultaneously with the discharge of a weapon and the Composite Flexible and Conductive Catheter Electrode (U.S. Pat. No. 7,622,172), a cardiac catheter for sensing electrical activity and administering therapy to a patient’s heart.

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For extra details, make contact with Angela Forte, Workplace Administrator at 856.810.8860, or&#13

email: sgoldstein@rtjglaw.com. Ricci Tyrrell Johnson &amp Grey, PLLC, is a complete service civil litigation firm with knowledge in all aspects of house, casualty, and commercial matters. Ricci Tyrrell Johnson &amp Grey, PLLC, represents a wide range of national consumers, which includes corporations, businesses, and Fortune 500 businesses all through the country, especially in matters in Pennsylvania, New Jersey, Delaware, and New York.

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The firm’s practice locations include solution and premise liability, commercial litigation, environmental, insurance coverage coverage, maritime law, aviation law, mass and toxic tort, patent and trademark law, sports and recreational law, subrogation, overall health care, and building litigation.

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