Inadequate health monitoring is a growing challenge in today’s healthcare landscape. Many patients suffer severe health complications due to the lack of timely surveillance of their health conditions. Traditional healthcare systems are often slow to respond to changes in a patient’s health status, leading to delayed treatments and increased risks. As the demand for healthcare services continues to rise, new technological solutions are needed to enhance patient monitoring and improve care outcomes. 

VerveTronics addresses this issue by integrating IoT technology into healthcare systems, offering advanced health monitoring solutions. By leveraging connected devices, real-time data collection, and analytics, VerveTronics enables healthcare providers to remotely monitor patients, track changes in their health conditions, and provide timely interventions. This not only enhances patient care but also reduces the strain on healthcare resources.

Internet of Things (IoT) in healthcare 

The Internet of Things (IoT) in healthcare involves connecting medical devices, sensors, and systems to the internet to collect and exchange data. This enables continuous and real-time monitoring of patients, helping healthcare providers detect abnormalities, make data-driven decisions, and improve treatment outcomes. IoT applications include wearable devices, smart hospital management systems, and remote patient monitoring, which offer a seamless way to manage patient health and optimize healthcare delivery. 

The Challanges of IoT in healthcare 

Traditional healthcare systems rely heavily on periodic check-ups and manual monitoring, which can be inefficient and prone to human error. Patients with chronic conditions often face the risk of complications due to the lack of continuous health monitoring. Furthermore, hospitals are struggling with resource management, leading to overcrowded facilities, long wait times, and staff overload. These issues point to the need for solutions that enable real-time monitoring, predictive healthcare, and efficient resource utilization. 

How IoT Can Address Healthcare Problems

IoT technology allows for continuous and real-time monitoring of patient health parameters such as heart rate, blood pressure, glucose levels, and more. By using IoT-enabled devices, healthcare providers can access a stream of health data, ensuring timely diagnosis and intervention. For patients at home, IoT-based remote patient monitoring (RPM) enables doctors to monitor their health from afar, reducing the need for frequent hospital visits and improving disease management. IoT systems can also enhance hospital operations, with applications in asset tracking, predictive maintenance, and resource allocation. 

Benefits of IoT applications for healthcare  

    • Real-time data collection and processing  
    • Better management of dangerous conditions  
    • Stronger connection between patients and doctors  
    • Higher efficacy of treatment  
    • Optimized use of hospital resources  
    • Reduced staff pressure and overloads  
    • Individualized treatment plan 
    • Higher patient satisfactions 

Why VerveTronics? 

VerveTronics stands out in the IoT healthcare space due to its deep expertise in IoT systems, embedded technology, and healthcare solutions. The company’s experience in designing and implementing connected devices, sensors, and data platforms enables it to deliver end-to-end solutions that address the specific needs of healthcare providers. VerveTronics’ solutions are not only technically robust but also scalable, ensuring they can be adapted to various healthcare settings. With a strong focus on security and compliance, VerveTronics ensures that patient data is protected, while the systems remain reliable and efficient. 

 

Vervetronics Health and Safety services include: 

 

    • Health and Safety Evaluations and/or Compliance Reviews 
    • Site Audits, Generating Action Plans 
    • Benchmark Audits (compares performance to a similar business) 
    • Health and Safety Policies and Management Systems 
    • Workplace Risk Assessments 
    • Simplifying and Streamlining Existing Management Systems and/or Risk Assessments 
    • Machinery Risk Assessments 
    • Fire Risk Assessments 
    • Control of Substances Hazardous to Health (COSHH) Assessments 
    • Noise Survey and Noise at Work Risk Assessments 
    • Air Monitoring 
    • Local Exhaust Ventilation (LEV) – Thorough Examination and Testing 
    • Dangerous Substances and Explosive Atmosphere Regulations (DSEAR) Risk Assessments 
    • Health and Safety Management Projects 
    • Health and Safety Training 
    • e-Learning Platform 
    • Safe Systems of Work and Standard Operating Procedures 
    • Assistance with Contractor Registration Schemes 
    • CHAS, Achilles, Constructionline Accreditation 
    • Construction Phase Plans, Construction Site Visits 
    • Inspections, Risk Assessments and Method Statements (RAMS) 
    • Control of Contractors & Evaluation of Contractors 
    • Accident, Incident and Emergency Support 
    • Remote advice and support 

Our Approach

VerveTronics offers a comprehensive IoT-powered Hospital Management System that enables real-time patient monitoring, optimized resource utilization, and predictive maintenance. Their IoT-enabled systems can gather data from medical devices and wearable sensors to provide continuous health monitoring. This data is processed in real-time, allowing healthcare professionals to detect changes in a patient’s health status early on. Also, asset tracking and management systems, helps hospitals optimize the use of medical equipment and ensure timely maintenance. 

For patients at home, remote patient monitoring solutions that integrate with wearable devices and IoT sensors, allowing healthcare providers to remotely track vital health metrics. This enhances patient care by ensuring that healthcare professionals have access to real-time data, making timely interventions possible. VerveTronics’ IoT platform seamlessly integrates with existing hospital systems, providing a unified solution that improves both patient outcomes and hospital efficiency. 

VerveTronics Case Studies/Solutions

Electrified Powertrain Types and Architecture | Gannet Academy

Premium Photo | Ev car or electric vehicle with pack of battery cells on platform

Premium Photo | Ev car or electric vehicle with pack of battery cells on platform

We worked European Tier-1 for Electronics Power Steering & Vehicle Control unit as per ISO 26262 / IEC 61508 ASIL-D / SIL3 for end to end  concept to certification support for their premium passenger car application

VerveTronics Role:

  • Support for end to end ISO 26262 ASIL-D | IEC 61508 SIL3 compliance and certification
  • Safety/Technical Concept and specifications ,
  • Safety Analysis for System (HARA), Hardware(FMEDA), Software(FMEA) and Mechanical (FMEA)
  • Safety Compliant Hardware Specifications and Assessment
  • Hardware Design and development
  • Safety Compliant Software Specifications, Validation and Assessment
  • ASIL-D / SIL3 Process Development and Improvements
  • Safety Assessment and Certifications

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We successfully contributed in development for a leading Tier-1 supplier in US  Battery Management System according to ASIL-C rating

VerveTronics Role:

  • Support for end to end ISO 26262 ASIL-C compliance
  • Safety/Technical Concept and specifications ,
  • Safety Analysis for Hardware(FMEDA), Software (FMEA) and Mechanical (FMEA)
  • Safety Compliant Hardware Specifications and Assessment
  • Safety Compliant Software Specifications and Assessment
  • ASIL-C / ASPICE Process Development and Improvements
  • Safety Assessment

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We worked with a leading Tier-1 supplier in Europe to develop DC Power Converter System according to ASIL-B rating

VerveTronics Role:

  • Safety/Technical Concept and specifications ,
  • Safety Analysis for Hardware(FMEDA), Software (FMEA) and Mechanical (FMEA)
  • Safety Compliant Hardware Specifications and Assessment
  • Safety Compliant Software Specifications and Assessment
  • Safety Assessment.

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Knowledge Center

What is Failure Mode, Effect, and Diagnostics Analysis (FMEDA)

FMEDA is an advanced methodology that builds on Failure Modes and Effects Analysis (FMEA). While FMEA identifies potential failures and their effects, FMEDA adds a layer by evaluating the effectiveness of diagnostic mechanisms for detecting and responding to these failures.


Fusa in Software-Defined Vehicles (SDVs)

Functional Safety is the discipline of ensuring that electrical and electronic systems operate safely, even in the presence of faults. In the context of SDVs, FuSa focuses on identifying hazards, assessing risks, and implementing safety measures to avoid accidents.

What is FuSa?

Functional safety refers to the ability of a system to operate safely in response to its inputs, even in the event of faults or failures. Unlike general safety, which covers a wide range of issues, functional safety focuses specifically on ensuring systems function correctly and safely under defined conditions.