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From patient rehabilitation to hospital cleaning and disinfection, ASIMOV brings robotics solutions designed to improve safety, efficiency, and patient outcomes.
Hospitals, clinics, and rehabilitation centers around the world are adopting robots to improve patient support, streamline cleaning operations, and ensure safer environments. At ASIMOV, we provide access to curated medical robotics solutions — from humanoid assistants to autonomous disinfection units — all designed to meet today’s healthcare challenges.
Robots designed for patient mobility, therapy sessions, and continuous rehabilitation assistance.
Automated systems for sterilization, reducing hospital-acquired infections with consistent efficiency.
Humanoids supporting nurses and doctors in repetitive, time-intensive patient care tasks, or helping with pills.
Robots enabling safe, reliable transport of medication, samples, and essential hospital supplies.
Robotic exoskeletons adapt resistance and motion in real time, delivering sessions fully personalized.
Rehabilitation robots ensure repeatable and controlled exercises, reducing errors and variability.
AI-driven sensors capture each session and create digital records that therapists can review remotely.
Gamified feedback and interactive robotic support increase patient effort and long-term adherence.
By automating repetitive routines, robots free therapists to focus on complex cases and follow-up.
Robotic rehab accelerates improvement in stroke, orthopedic, and neurological rehabilitation patients.
Disinfection robots are transforming hospital hygiene by automating sterilization with UV-C light and chemical spraying systems. Unlike manual cleaning, these robots ensure consistent coverage of patient rooms, operating theaters, and high-traffic areas, reducing the risk of hospital-acquired infections (HAIs). Their precision minimizes chemical waste while delivering hospital-grade sanitization in minutes.
With built-in navigation and AI mapping, robots work safely around staff and patients, adapting schedules for day and night operations. This not only reduces human exposure to harmful chemicals but also guarantees compliance with international hygiene standards.
Patient assistance robots are redefining bedside care by taking over repetitive, time-intensive tasks such as medication delivery, room-to-room supply transport, and patient monitoring. These robotic aides act as an extension of nursing staff, ensuring quicker response times while freeing professionals to focus on complex patient needs.
Equipped with smart sensors and AI interfaces, they can navigate hospital corridors, communicate with staff systems, and even interact directly with patients. By integrating with digital health records, they help reduce errors while keeping medical teams informed in real time.
Key benefits include:
Streamlined delivery of medication and supplies
Improved patient satisfaction with faster responses
Reduced staff workload and burnout rates
Robots transport medications and samples safely, reducing risks in sensitive hospital operations.
Autonomous navigation systems adjust to complex layouts, ensuring precise and timely arrivals.
By automating transport, staff focus shifts to patient care, lowering workload and daily stress.
Smart sensors provide live tracking of routes, guaranteeing transparency in every hospital delivery.
Contactless transport improves hygiene standards and reduces contamination inside clinical spaces.
Systems integrate seamlessly with hospital logistics, scaling as facilities and needs expand.
Robotics is reshaping hospitals and clinics by automating critical yet repetitive tasks. From faster rehabilitation cycles and automated disinfection to patient support and training simulations, robots deliver measurable improvements in care and efficiency. Facilities benefit from reduced infection risks, optimized staff workload, and real-time patient data — ensuring better outcomes and cost savings.
Yes. All medical robots are developed in compliance with international healthcare regulations and can be adapted to meet local certification standards. This ensures hospitals and clinics can confidently deploy robots without facing regulatory barriers. Certification also guarantees that the technology meets safety, hygiene, and operational requirements, providing both staff and patients with trust in its use.
Each deployment includes a structured onboarding program designed to fit hospital routines. Training covers step-by-step guidance, interactive demonstrations, and ongoing support sessions to ensure staff are confident in using the robots. Within a short time, doctors, nurses, and support teams adapt to the technology, allowing seamless integration into patient care workflows.
Most hospitals see return on investment within 12–18 months after implementation. Savings come from reduced infection risks, optimized staff allocation, and more efficient patient management. By automating routine tasks, robots free up medical professionals to focus on critical care, which increases overall service quality and contributes to measurable financial benefits for the institution.
Yes. All medical robots are manufactured with hospital-grade surfaces designed for rapid and effective cleaning. They are compatible with standard disinfectants and sterilization procedures, ensuring compliance with infection-control protocols. This makes it simple for healthcare staff to sanitize robots between uses, reducing the risk of cross-contamination and maintaining high hygiene standards.
Yes. Most medical robots are designed to integrate with hospital management software and digital health platforms already in place. This ensures smooth adoption, minimizes workflow disruptions, and allows staff to benefit from automation without duplicating processes.
Very little. Modern robots are built with durable components and equipped with self-diagnostic sensors that alert when service is needed. In most cases, they require only annual technical checks and periodic software updates, which reduces downtime and operating costs.
Extremely safe. Medical robots are equipped with AI-powered safety systems, advanced sensors, and collision-avoidance technology. They comply with strict international healthcare standards, ensuring safe operation around patients, staff, and sensitive medical equipment.
Yes. Many institutions choose flexible leasing or financing models to lower upfront costs. This allows hospitals to access advanced robotics immediately, while spreading the investment over time, making adoption financially sustainable and scalable.
ASIMOV AI AGENT
