Using advances in technology has enabled engineers to substantiate equipment and process designs at progressively earlier stages in their development. Modern computer equipment and software can simulate designs operating under their whole range of potential working loads, and environments allowing engineers to select best available solutions.
We offer state of the art engineering & simulation based product design & optimization services for structures, fluids, Electrical & Electronics systems including processes or services. Our solid experience in Simulation based Product Development and our close ties with the industry makes our services an excellent strategic partner for any project. Our simulation-based product design & optimization services include – simulation based design, building of prototypes, verification &validation tests and transfer to mass production. The advantage of working with us is the entire development cycle, from the blank sheet to production, can be completed with our professional team.
We consider simulation and analysis to be an integral partin the engineering of our product design and development. As a result, we provide services that deliver the value to our customers that we would expect to deliver within our own engineering business.
We have been delivering simulation and analysis services that solve our customer’s critical engineering problems and deliver competitive advantage for many years. As a leading simulation-based product developer, we also enjoy the unique benefit of the close links that we have with the product manufacturers that are reflected in the high quality of the results we produce for our customers. Our diverse experience with simulation is certainly an advantage when serving our customers.
Our expertise in design optimization helps customer obtain better performing design and more reliable products in significantly less time than traditional product development process. We use parametric and non-parametric optimization techniques early in the design stage to quickly obtain an optimized geometry.
Using non-parametric optimization, we realize topology optimization of solid parts, letting the software remove material automatically while maximizing stiffness or minimizing stresses/displacements. We also optimize elements thickness and create bead patterns on thin shell structures optimizing for stress, displacement, natural frequencies, weight, or others important design variables considering flow as well.
We use Parametric optimization techniques where design variables such as geometry dimensions or material properties, can be optimized through a process involving automatic and direct interaction between CAD software and FEA solvers.
We also offer digital twin simulation services on any of your physical model of a process, product or service in a virtual environment. This pairing of the virtual and physical worlds allows analysis of data and monitoring of systems to head off problems before they even occur, prevent downtime, develop new opportunities and even plan the future by using simulations, for example, justifying in-situ equipment suitability on live plants, "do I need to replace the equipment, or can I run it until the next maintenance window?"
It simply means, simulation-based design validation verification can provide greater assurance that the component, system, process, service will work as designed; enhance operational efficiency and maintenance routines; reduce failure rates; increase safety; optimized cost burdens.
Our history in the full life cycle of engineering simulation services from concept & design through operation & maintenance to decommissioning & demolition provides a level of pragmatism that helps us to deliver the most cost-effective solutions. Our team of internationally recognized experts can help you to justify your design criteria; significantly enhancing confidence in your decision-making processes and easing regular client concerns. The following are a few of the techniques utilized by our Engineering Simulation team:
Computer-based modelling and simulation has already had a beneficial impact on many different fields and industries such engineering, physics, chemistry, aeronautics, meteorology, material science, finance, and musical composition. Despite its promise, adoption of Modelling & Simulation in the Bio-Medical & Healthcare industry has lagged due to the complexity of modelling biological systems, insufficient scientific understanding of disease conditions, and lack of large amounts of real-world health outcome population data. Significant progress in these areas has occurred over the last decade, and M&S is now being promoted as having the potential to transform the drug development process from R & D all the way to commercialization and life-cycle management along with simulation-based drug delivery studies and optimization.
Most of the bio-medical, healthcare, medical device, medical equipment, pharmaceutical companies and hospitals in the world have realized that a large fraction of their engineering force should be using simulation regularly and hence are using engineering simulation and computer-based models routinely. The computer-based modeling and simulation can be effectively used for medical domains typical in-modelling and simulation (M & S) assisted FDA & FCC approval to bring new medical equipment/device/drug along with process, simulation based surgical and diagnosis equipment & device development, in-silico medical equipment & devices clinical trial, simulation based drug discovery (drug design, development, delivery, testing), in-silico clinical trial simulation (CTS) for drug development – efficacy, toxicity & safety, dose level & scheduling, model-based drug development (MBDD), model-informed drug discovery and development (MID3), computer-assisted trial design (CATD), human body modeling and simulation (HBM&S), virtual patient simulation with mannequin-based simulation for improving clinical performances in assessing and managing clinical deterioration, medical task trainer simulation, manikin-based surgical simulation, standardized patient simulation, virtual reality simulation, tissue-based simulation, and so on.
The simulation assisted Food and Drug Administration (FDA) & Federal Communications Commission (FCC) approval of Simulation assisted clinical trials of medical equipment, device & drug brings new products to patients faster. In-silico testing of new prototypes on a large cohort of patients, representing the target population, reduces the need for extensive clinical trials. Patient safety is thus greatly vitalized by the adaption of in-silico computational modelling and simulation (CM & S) techniques. Along with, human body modelling & simulation (HBM & S) include human organ modelling such as – heart, lung, lever, kidney, brain, spleen, pancreas, stomach, intestine, blood flow, respiratory modelling considering in-silico drug delivery, efficacy toxicity & safety, dose level & scheduling can also be used to reduce extensive clinical trials, prototype costs & saving time to market.
Besides medical device development & drug development, CM&S is also being extensively used to improve the pharmaceutical manufacturing process design and development. More specifically, engineering simulation can predict fluid flow patterns, mixing characteristics, and heat/mass transfer, behaviour of various (bio)pharmaceutical unit operations, including fermentation, crystallization, and spray drying, to name only a few.
Early adapters of this phenomenal technology shift to use computational modelling and simulation (CM & S) techniques have been experiencing a surge of benefits in terms of reduced prototype costs and saving time to market.
We can be your partner for consulting, education & support for this outstanding technology adaptation. We provide product updates, technical services, preventative maintenance, warranty programs & much more. We pride ourselves on developing and building the highest-quality products and offering top-notch services that are tailored to the needs of our customers. Whether you’re looking for an advanced or simple simulator, scenarios developed specifically for turn-key implementation, or educational and technical services, we can provide exactly what you need.
We intend to provide our dignified customers with the best in quality, personalized service & affordably priced products. Our unique simulation technique offers bio-medical, healthcare, equipment manufacturers, clinicians and doctors the most realistic hands-on experience in medical training interventional procedures, at no patient risk. Our position in the market is due to our extensive expertise in meeting quality compliance and timely delivery. We understand the trust placed in us and we honour that commitment of our own to do everything we can to deserve the trust placed in us and to do nothing that would compromise it. We are committed to be a service provider of the highest quality, with a customer-oriented and value-added approach in all our activities. With our disciplined and planned process, well-motivated management, excellent network, we always remain highly responsive to our client's needs at all times.
Building upon our existing software and hardware platforms, modelling technology and engineering expertise, CAE (Computer Aided Engineering) healthcare, we partner you to provide custom training solutions and education for medical equipment manufacturers and professional associations, such as the American Society for Anaesthesiologists(ASA) and the International Nursing Association for Clinical Simulation and Learning (INACSL).
Successful healthcare training depends on a curriculum that has been properly defined to meet the academic, professional, regulatory and legislative requirements. We define curricula through the training needs analysis process, one of the key instructional systems design processes, used to drive the detailed training plan. The training needs analysis is followed by a methods and media analysis which defines the most appropriate media for teaching each element of the curriculum. Our innovative medical and nursing curricula are designed to fully integrate simulation-based healthcare education both for training and for competency assessment. We work with subject matter experts, clinical educators, and systems design specialists to develop the customized curricula to meet each individual customer’s needs.
We can also provide virtual healthcare learning environment that represents the future of simulation-based education. A simulation landscape that can be customized for medical specialties such as - multiple clinical environments (OR, PACU, Labour and Delivery room), interactive medical equipment, responsive patient physiology, real-time patient monitoring, objective scoring and assessment, available anytime, anywhere
With the widest breadth of medical simulation training solutions in the industry, Our healthcare continues to deliver integrated software, hardware and technology platforms. We partner with medical equipment and device manufacturers to develop innovative solutions for internal and external training, new equipment validation, medical device trials, educational content, debriefing and more, OEM training solutions, pharmaceutical training solutions, customization of existing solutions, hybridize existing simulation solutions, joint research and development, innovative training devices to support new medical technologies, design, construction and staffing of training facilities.
We also provide, Manikin-Based Simulations to medical students practice on plastic, residents practice surgery on manikins, manikin-based simulations use high fidelity simulators, manikins that breathe, with breath sounds, heart tones, and palpable pulses. In addition, the manikin has a monitor that can display EKG, pulse oximeter, blood pressure, arterial wave forms, pulmonary artery wave forms, anesthetic gases, etc. Procedures can be performed on the simulators such as bag-mask ventilation, intubation, defibrillation, chest tube placement, cricothyrotomy and others.
Using manikins in clinical simulations allows future and current physicians to ‘practice on plastic’ first. The reality of manikin-based simulations allows for virtual feedback using computers that regulate the manikin's compressors, mimicking pulses and chest raising. These life-like manikins simulate heart tones and other vital cues that when connected to monitors, provides real-time information to students. By practicing true clinical skills in a safe and regulated environment, future physicians learn permanent and excellent evaluation and treatment techniques.