Designed for enthusiasts that want to get noticed. Sharp lines with aggressive angles provide a jaw dropping stance. Designed for enthusiasts aiming for the GT-inspired look. This aero features aggressive lines with built-in front lip, side extensions, and rear-valence under-fins providing that circuit-bred style.
Designed for enthusiasts that want ultimate performance. Bigger openings channel air flow toward engine and braking components for pure performance. Designed for enthusiasts that want a clean look.
Sleek lines and smooth angles provide an elegant yet sporty look. The latest design from Origin featuring ultra clean styling. Options for full replacement and half front spoilers for those that deal with the city life on a daily basis. Aggressive Line Designed for enthusiasts that want to get noticed.
Racing Line Designed for enthusiasts aiming for the GT-inspired look. Stream Line Designed for enthusiasts that want ultimate performance. Stylish Line Designed for enthusiasts that want a clean look. Urban Line The latest design from Origin featuring ultra clean styling.
Load More Follow on Instagram. Follow us on Facebook.Avijit Chatterjee Aerodynamics avijit aero. Mandal Aerodynamics mandal[at]aero. Menezes Aerodynamics D viren[at]aero. Vineeth Nair Aerodynamics C vineeth aero. Pant Aerodynamics rkpant aero. Prabhu Ramachandran Aerodynamics prabhu[at]aero.
Dhwanil Shukla Aerodynamics E dhwanil[at]aero. Aniruddha Sinha Aerodynamics B as[at]aero. Hemendra Arya Dynamics and Control arya[at]aero. Ashok Joshi Dynamics and Control ashokj[at]aero. Pradeep Propulsion D ampradeep[at]aero.
Kowsik Bodi Propulsion kbodi aero. Hrishikesh Gadgil Propulsion gadgil aero. Sudarshan Kumar Propulsion sudar aero. Mahulikar Propulsion B 1st Floor spm[at]aero.
Sinha Propulsion krish[at]aero. Abhijit Gogulapati Structures - C abhijit[at]aero. P J Guruprasad Structures A pjguru aero. Krishnendu Haldar Structures B krishnendu aero.
Mujumdar Structures mujumdar[at]aero. Susmita Naskar Structures A susmita aero. Amuthan A. Ramabathiran Structures A amuthan aero.
Chandra Sekher Yerramalli Structures chandra[at]aero.Do you want to visit our website in another language? Aimeriez-vous visiter notre site Web dans une autre langue? Deseja visitar nosso site em outro idioma?
To improve critical surgeries, radiosurgery treatments and operating room efficiency, Brainlab software and hardware devices create and enhance data. Elements Multiple Brain Mets SRS brings to market technology that consistently and rapidly generates radiosurgery plans for the efficient treatment of multiple metastases. See how it works. Microscope Navigation visualizes the planned surgical target and surrounding structures as semi-transparent volumes mixed with the anatomy seen, providing better spatial orientation throughout the procedure.
Find out more. Brainlab Mixed Reality applications are developed for surgery as part of an exclusive agreement with Magic Leap. The technology aims to redefine how surgeons and other clinicians visualize and access medical imaging data.
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Take a look. Brainlab technology is in use in over 5, hospitals worldwide. Brainlab innovations in surgery lend efficiency and ease to even the most complicated procedures, including neurosurgery. Brainlab offers platforms and software to enable access to improved, more efficient, less invasive and less expensive treatments for patients undergoing cranial, spinal, trauma, orthopedic, ENT and CMF surgery.
Brainlab has been a key player in the field of precision radiotherapy and stereotactic radiosurgery SRS for over two decades. Lean, intelligent and indication-specific Brainlab Elements allow for optimal customization around clinical needs. Get the facts.OriginLab® Introduction to Origin
With Brainlab Digital O. With this solution as many process steps as possible can be handled in one system, thus interfaces are minimized. Explore the benefits. Brainlab has been innovating for over a quarter century in the areas of surgery and radiation therapy, developing hardware and software technology to help healthcare providers, physicians and their patients fight cancer and other conditions of the brain and body.
Dedicated to improving access to and consistency of medical treatment, Brainlab is a global company committed to improving patient outcomes. Brainlab offers technology in the fields of radiotherapy and radiosurgery; image-guided craniomaxillofacial CMFENT, orthopedic, spine, trauma, and neurosurgery; intraoperative imaging; integrated operating room solutions; treatment planning as well as medical image sharing and enhancement.
With 18 offices around the globe, Brainlab is always nearby.
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Click below to find an office near you. Brainlab Offices. Brainlab Transforms Healthcare with Software-Based Technology To improve critical surgeries, radiosurgery treatments and operating room efficiency, Brainlab software and hardware devices create and enhance data. What we do. Microscope Navigation Microscope Navigation visualizes the planned surgical target and surrounding structures as semi-transparent volumes mixed with the anatomy seen, providing better spatial orientation throughout the procedure.
Surgery Products Brainlab technology is in use in over 5, hospitals worldwide. Radiosurgery Products Brainlab has been a key player in the field of precision radiotherapy and stereotactic radiosurgery SRS for over two decades. Digital O. Benefit from the advantages the Digital O.Do you want to visit our website in another language?
Aimeriez-vous visiter notre site Web dans une autre langue? Deseja visitar nosso site em outro idioma? An operating room is a complex environment. The number of devices in the O. Each software having its own interface makes maintaining a clear overview of all data more difficult and takes attention away from the patient. Furthermore, valuable time is lost manually connecting each device. Most O. IT integration is a key element of any modern operating room. As a software company with over a thousand integrated O.
Brainlab Digital O.
Straightforward integration with hospital information systems allows Buzz to gather and send the right data to the hospital archive at the right time. With Brainlab Digital O. Newly connected sources automatically appear on the home screen, allowing for centralized control and overview of the integrated devices and eliminating the need to use various displays or interfaces. Not only the number of hardware devices in the O. Surgeons, nurses, and anesthesiologists also have their own perioperative systems on which to focus 3.
Buzz was designed as a future-proof, open platform on which browser-based and executable software can be integrated, displayed and controlled through one central interface.
Therefore, various O. Discover how the Brainlab O. Planning Team can work with you to seamlessly integrate your O. American Hospital Association, Why Interoperability Matters. Shekelle, P.
Making health care safer II: an updated critical analysis of the evidence for patient safety practices. We strive to publish only valuable non-commercial content. By using our expert network, our objective will be to answer your most pressing questions, provide you with tips, best practices and the latest technology trends for building and managing your future-proof O.
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Previous Next. Our Products. Link to: Aero Kit. Link to: Bonnets. Link to: Fenders.To do this, we use tools like radar, acoustics, and citizen science data. The United States upgraded the NEXRAD network to dual-polarization inproviding new radar products for the description of migrant flight strategies.
Aeroecology is the study of airborne organisms and their utilization of the lower atmosphere i. Like any other habitat or ecosystem, organisms use the aerosphere in a multitude of ways. Whether for foraging or migrating, breeding or roosting, there is no debating that the aerosphere plays a critical role in the life histories of airborne organisms. However, our understanding of these uses is incomplete at best. Studying the aerosphere requires a unique suite of tools, naturally linking multiple disciplines together.
Sensor systems like radar, thermal imaging, and acoustics are regularly employed by aeroecologists, particularly for describing nocturnal movements. Radar remote sensing offers an invaluable tool for quantifying large-scale animal movements, whereas acoustics provide fine-scale, species-specific records of migrant activity. Each of these tools provide a unique perspective to answer questions that improve our understanding of migratory systems and their association with abiotic and biotic phenomena.
The use of radars in biology dates back to the s when David Lack, arguably the father of what we today call radar ornithology or radar aeroecologychampioned the use of radar for understanding large-scale nocturnal movements of birds. These cm wavelength radars possess a typical biological range of km, and provide rapid updates of migration intensity, migration track, and more recently orientation direction. Imagery shows raw radar reflectivity, containing signal returns from weather precipitation and biology birds, bats, and insects.
White points show the locations of the WSRD stations across the lower 48 states. Radar correlation coefficient revealing large-scale orientation fields of nocturnal migrants. Until aboutWSRDs collected three primary radar moments: reflectivity, radial velocity, and spectrum width. In the US upgraded the NEXRAD network to dual-polarization, an update that resulted in the collection of three additional data products: differential reflectivity, correlation coefficient, and differential phase.
This upgrade has allowed for a direct measure of migrant orientation, an important feature for determining migrant flight strategies regarding wind drift compensation. I am interested in how migratory birds cope with crosswinds and how these strategies may differ at large geographic scales. Abstract: Quantifying the timing and intensity of migratory movements is imperative for understanding impacts of changing landscapes and climates on migratory bird populations.
Billions of birds migrate in the Western Hemisphere, but accurately estimating the population size of one migratory species, let alone hundreds, presents numerous obstacles.
Here, we quantify the timing, intensity, and distribution of bird migration through one of the largest migration corridors in the Western Hemisphere, the Gulf of Mexico the Gulf.
We further assess whether there have been changes in migration timing or intensity through the Gulf. We predicted no change in migration timing and a decline in migration intensity across the time series. We estimate that an average of 2. The western region of the Gulf showed a mean rate of passage 5.
We did not detect an overall change in the annual numbers of migrants — or the annual timing of peak migration — However, we found that the earliest seasonal movements through the region occurred significantly earlier over time 1.
Additionally, body mass and migration distance explained the magnitude of phenological changes, with the most rapid advances occurring with an assemblage of larger-bodied shorter-distance migrants.GitHub is home to over 40 million developers working together.
Join them to grow your own development teams, manage permissions, and collaborate on projects. Fast and accurate aerodynamic modelling using lifting-line theory. A Python module for modelling airfoils. A fully-featured flight simulator, capable of real-time lifting-line aerodynamic modelling. A tool set for rapid boom prediction of parametric geometries. Calculates the perceived loudness of a pressure signature.
Optimize propulsion systems for small UASs. Python Gradient-Based Optimization Tool. Numerical Lifting-Line Algorithm. Common source files for aero codes. Blade Element Propeller Code. Skip to content. Sign up. Type: All Select type.
All Sources Forks Archived Mirrors. Select language. Repositories MachUpX Fast and accurate aerodynamic modelling using lifting-line theory. AirfoilDatabase A Python module for modelling airfoils.
Pylot A fully-featured flight simulator, capable of real-time lifting-line aerodynamic modelling. PyLdB Calculates the perceived loudness of a pressure signature.
Python 2 3 0 0 Updated Sep 25, Python 2 4 0 0 Updated Jun 5, Fortran 1 3 0 0 Updated Oct 17, Common Common source files for aero codes. Fortran 2 6 0 0 Updated Jul 12,
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