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DICOM Node Integration & Routing Service in Madagascar
Engineering Excellence & Technical Support
DICOM Node Integration & Routing Service High-standard technical execution following OEM protocols and local regulatory frameworks.
Centralized DICOM Node Integration
Successfully integrated multiple disparate DICOM modalities and PACS systems into a centralized DICOM Node Integration & Routing Service, ensuring seamless image data flow across Madagascar's healthcare network. This facilitates efficient data access for diagnosis and research.
HL7 & DICOM Interoperability Layer
Developed and deployed a robust HL7 and DICOM interoperability layer, enabling standardized communication between HIS/EMR systems and imaging departments. This ensures accurate patient context is linked to DICOM studies, improving workflow efficiency and reducing manual errors.
Secure & Reliable DICOM Routing
Implemented secure and reliable DICOM routing rules based on AE Titles, Study Instance UIDs, and patient demographics. This guarantees that medical images are delivered to the correct destinations, adhering to privacy regulations and ensuring timely access for clinicians nationwide.
What Is Dicom Node Integration & Routing Service In Madagascar?
The DICOM Node Integration & Routing Service in Madagascar refers to a specialized IT infrastructure and set of protocols designed to facilitate the secure and efficient exchange of medical imaging data (DICOM) between healthcare facilities within Madagascar. This service enables different DICOM nodes (imaging modalities, PACS, workstations, etc.) to discover, connect, and transmit data reliably, often across disparate networks. It ensures that medical images and associated patient information can be accurately routed to their intended destinations, supporting clinical workflows, remote consultations, and archival purposes within the Malagasy healthcare ecosystem.
| Stakeholder | Needs Addressed | Typical Use Cases |
|---|---|---|
| Hospitals (Major & Regional) | Centralized image management, efficient retrieval for diagnosis and treatment, reduced physical media transfer. | Sharing MRI/CT scans between departments, transmitting X-rays to remote radiologists for interpretation, archiving large volumes of imaging data. |
| Specialized Clinics (e.g., Cardiology, Oncology) | Access to imaging from primary care facilities, collaborative diagnosis with larger centers. | Receiving echocardiograms for specialist review, forwarding PET-CT scans for multi-disciplinary team meetings. |
| Radiology Departments | Streamlined workflow for image acquisition, storage, and retrieval; enabling remote reading. | Routing studies to radiographers for acquisition, directing interpreted studies to PACS, enabling teleradiology services. |
| IT Administrators & Network Engineers | Secure and reliable inter-connectivity of medical devices, efficient bandwidth utilization, troubleshooting of imaging data flow. | Configuring AE Titles and ports for communication, implementing security policies for DICOM traffic, monitoring network performance of imaging data. |
| Healthcare Policymakers & Public Health Agencies | Improved access to diagnostic imaging for wider populations, data for epidemiological studies, development of national imaging networks. | Facilitating inter-provincial image sharing for specialized treatments, collecting anonymized imaging data for public health surveillance, establishing a national PACS infrastructure. |
| Medical Device Vendors | Ensuring their equipment integrates seamlessly into existing or new DICOM networks. | Providing interoperability testing for their imaging modalities with the routing service, advising on network requirements for optimal performance. |
| Patients (Indirectly) | Faster diagnosis and treatment due to quicker access to imaging results, potential for remote consultations. | Receiving timely interpretation of diagnostic images, benefiting from coordinated care facilitated by data sharing. |
Key Components and Functionalities of DICOM Node Integration & Routing Service
- DICOM Conformance Statement Management: Ensuring all participating DICOM nodes adhere to defined standards for communication and data formatting.
- DICOM Association Establishment: Managing the secure establishment of communication links between DICOM entities.
- DICOM Service Class User (SCU) and Service Class Provider (SCP) Role Management: Configuring and managing which devices act as initiators (SCU) and responders (SCP) for various DICOM services (e.g., C-STORE, C-FIND, C-MOVE).
- Network Configuration and Firewall Management: Establishing and maintaining network connectivity between DICOM nodes, often involving inter-facility or inter-regional network configurations and appropriate firewall rules.
- DICOM Router/Gateway Implementation: Deploying and configuring software or hardware that acts as a central point for directing DICOM traffic based on predefined rules (e.g., AE Title, IP address, modality type).
- Data Validation and Error Handling: Implementing mechanisms to validate incoming DICOM data and handle transmission errors gracefully.
- Security Protocols: Integrating encryption (e.g., TLS) and authentication mechanisms to ensure data confidentiality and integrity during transit.
- Workflow Integration: Connecting the routing service to existing Picture Archiving and Communication Systems (PACS), Electronic Health Records (EHRs), or other clinical information systems.
- Auditing and Logging: Maintaining comprehensive logs of DICOM message exchanges for troubleshooting, security, and compliance purposes.
Who Needs Dicom Node Integration & Routing Service In Madagascar?
The DICOM Node Integration & Routing Service is crucial for healthcare organizations in Madagascar seeking to modernize their medical imaging workflows. This service enables seamless sharing and management of medical images (like X-rays, CT scans, and MRIs) between different departments, facilities, and even external specialists. It addresses the challenges of siloed data, inefficient image retrieval, and the need for enhanced collaboration in diagnostic processes. By facilitating secure and standardized image exchange, the service directly contributes to improved patient care, reduced turnaround times for diagnoses, and optimized resource utilization.
| Customer Type | Key Departments Benefiting | Specific Needs Addressed |
|---|---|---|
| Hospitals (Public and Private) | Radiology/Imaging Department, Cardiology, Neurology, Oncology, Emergency Room, Pathology, Medical Records | Centralized image storage and retrieval, seamless sharing between modalities (CT, MRI, X-ray, Ultrasound), enabling remote consultations, disaster recovery for imaging data, efficient workflow for image interpretation and reporting. |
| Specialized Imaging Centers | Radiology, Diagnostic Imaging Specialists | Streamlined patient throughput, efficient workflow for multiple imaging modalities, secure external sharing with referring physicians or specialists, integration with PACS/RIS systems. |
| Diagnostic Laboratories | Pathology (if performing digital pathology), Molecular Imaging Units | Integration of digital pathology slides with patient records, sharing of molecular imaging data for research or advanced diagnostics. |
| Government Health Agencies | Public Health Surveillance, National Health Information Systems | Aggregate imaging data for public health analysis and disease trend monitoring, facilitating national-level health initiatives, ensuring data standardization for national health records. |
| Medical Research Institutions | Research Departments (various specialties), Data Management Teams | Secure anonymized data sharing for collaborative research, efficient access to large imaging datasets for analysis, integration with research databases. |
| Healthcare Networks and Alliances | Inter-facility Communication Teams, IT Departments | Facilitating seamless image exchange across multiple affiliated facilities, enabling centralized image management for the network, improving referral efficiency within the network. |
| Telemedicine Providers | Radiologists, Specialist Consultants, Telemedicine Platform Administrators | Real-time or near real-time secure transmission of medical images for remote diagnosis and consultations, integration with telemedicine platforms, enabling wider reach of specialist expertise. |
Target Customers & Departments in Madagascar Requiring DICOM Node Integration & Routing Service:
- Hospitals (Public and Private)
- Specialized Imaging Centers
- Diagnostic Laboratories
- Government Health Agencies
- Medical Research Institutions
- Healthcare Networks and Alliances
- Telemedicine Providers
Dicom Node Integration & Routing Service Process In Madagascar
This document outlines the workflow for integrating and routing DICOM (Digital Imaging and Communications in Medicine) nodes within Madagascar, detailing the process from initial inquiry to the successful execution of data transfer and routing.
| Phase | Stage/Activity | Description | Key Stakeholders | Deliverables/Outcomes |
|---|---|---|---|---|
| Phase 1: Inquiry & Initial Assessment | 1.1. Initial Contact | Prospective DICOM node owners (hospitals, clinics, imaging centers) submit an inquiry regarding DICOM integration and routing services. | Prospective Node Owner, Service Provider Representatives | Acknowledgement of inquiry, preliminary understanding of requirements. |
| 1.2. Requirement Gathering | Detailed discussion to understand the client's existing infrastructure, imaging modalities, DICOM conformance, intended data flow, and specific routing needs. | Prospective Node Owner (IT, Radiologists, Administrators), Service Provider (Business Analyst, Technical Lead) | Documented initial requirements, identification of potential challenges. | |
| 1.3. Feasibility Study & Solution Proposal | Assessing the technical and operational feasibility of integrating the client's node. Developing a preliminary solution proposal outlining the scope, estimated timeline, and costs. | Service Provider (Technical Lead, Solutions Architect, Project Manager) | Feasibility report, Draft solution proposal. | |
| Phase 2: Technical Consultation & Planning | 2.1. In-depth Technical Workshop | Detailed technical sessions to finalize the integration strategy, network requirements, security protocols, and DICOM service classes (e.g., C-STORE, C-FIND, C-MOVE) to be supported. | Prospective Node Owner (IT, PACS Administrator), Service Provider (Technical Lead, Network Engineer, DICOM Specialist) | Agreed-upon technical architecture, network topology diagram, security plan. |
| 2.2. Project Plan Development | Creating a comprehensive project plan including milestones, resource allocation, risk assessment, communication plan, and a detailed execution schedule. | Service Provider (Project Manager), Prospective Node Owner (Key Contact) | Approved project plan, project charter. | |
| Phase 3: Integration & Configuration | 3.1. Network Connectivity Setup | Establishing secure network connectivity between the client's DICOM node and the central routing service. This may involve VPN, dedicated lines, or secure internet protocols. | Service Provider (Network Engineer), Prospective Node Owner (Network Administrator) | Established and verified network link. |
| 3.2. DICOM Node Configuration | Configuring the client's DICOM node (modalities, PACS, workstation) to communicate with the routing service, including setting up AE Titles, ports, and network addresses. | Service Provider (DICOM Specialist), Prospective Node Owner (PACS Administrator, Biomedical Engineer) | Configured DICOM node parameters. | |
| 3.3. Routing Service Configuration | Configuring the central routing service to recognize the new node, define routing rules based on modality, patient demographics, study type, or other criteria. | Service Provider (Routing Service Administrator, System Administrator) | Defined routing rules, configured routing table entries. | |
| 3.4. Security Implementation | Implementing security measures such as encryption, authentication, and access control to ensure data privacy and integrity during transit and at rest. | Service Provider (Security Specialist), Prospective Node Owner (IT Security) | Implemented security protocols, access control lists. | |
| Phase 4: Testing & Validation | 4.1. Unit Testing | Testing individual components of the integration, such as establishing DICOM associations, sending test images (e.g., C-STORE), and verifying basic communication. | Service Provider (QA Engineer, DICOM Specialist), Prospective Node Owner (PACS Administrator) | Successful DICOM association, successful test image transfers. |
| 4.2. Integration Testing | Testing the end-to-end workflow, including sending studies from modalities to the routing service and verifying they are correctly routed to intended destinations (e.g., a central PACS or referring physician). | Service Provider (QA Engineer, Routing Service Administrator), Prospective Node Owner (PACS Administrator, Radiologist) | Verified end-to-end data flow, accurate routing of test studies. | |
| 4.3. User Acceptance Testing (UAT) | Client stakeholders validate that the system meets their functional and operational requirements. This includes verifying routing logic, image accessibility, and system performance. | Prospective Node Owner (End-users, IT, Radiologists), Service Provider (Project Manager, Support Team) | Signed-off UAT report, client confirmation of readiness. | |
| Phase 5: Go-Live & Monitoring | 5.1. Production Deployment | Transitioning the integrated DICOM node into the live production environment. | Service Provider (Deployment Team, Project Manager), Prospective Node Owner (IT) | Live DICOM node and routing integration. |
| 5.2. Initial Production Monitoring | Close monitoring of the system for the initial period to detect and resolve any unexpected issues that may arise in a live environment. | Service Provider (Operations Team, Support Team), Prospective Node Owner (IT) | Stable system operation, immediate issue resolution. | |
| 5.3. Handover & Training | Formal handover of the operational system to the client's IT team and providing necessary training on system management, basic troubleshooting, and monitoring tools. | Service Provider (Training Specialist, Support Team), Prospective Node Owner (IT Administrators) | Trained client personnel, operational documentation. | |
| Phase 6: Ongoing Support & Maintenance | 6.1. Routine Monitoring & Performance Tuning | Continuous monitoring of system health, performance, and resource utilization. Proactive identification and resolution of potential bottlenecks. | Service Provider (Operations Team, System Administrators) | Optimized system performance, high availability. |
| 6.2. Issue Resolution & Incident Management | Providing timely support for any issues or incidents that arise, ensuring minimal disruption to DICOM data flow. | Service Provider (Support Team, Technical Experts), Prospective Node Owner (IT Helpdesk) | Resolved incidents, documented solutions. | |
| 6.3. System Updates & Upgrades | Planning and executing software updates, security patches, and potential upgrades to the DICOM node and routing service to maintain optimal functionality and security. | Service Provider (Maintenance Team, Development Team), Prospective Node Owner (IT) | Updated and upgraded system components. | |
| 6.4. Periodic Review & Optimization | Regular reviews of routing rules, system performance, and client needs to identify opportunities for optimization and improvement. | Service Provider (Account Manager, Technical Lead), Prospective Node Owner (Stakeholders) | Enhanced routing efficiency, improved service delivery. |
DICOM Node Integration & Routing Service Process in Madagascar: Workflow
- Phase 1: Inquiry & Initial Assessment
- Phase 2: Technical Consultation & Planning
- Phase 3: Integration & Configuration
- Phase 4: Testing & Validation
- Phase 5: Go-Live & Monitoring
- Phase 6: Ongoing Support & Maintenance
Dicom Node Integration & Routing Service Cost In Madagascar
Integrating DICOM (Digital Imaging and Communications in Medicine) nodes and establishing a robust routing service in Madagascar involves several cost factors. These costs are influenced by the complexity of the integration, the volume of data to be processed, the required level of security and compliance, and the specific vendors or service providers chosen. The pricing is typically quoted in a combination of upfront development/setup fees and ongoing operational/subscription costs. While precise figures can vary significantly, this discussion outlines the key pricing elements and provides estimated ranges in Malagasy Ariary (MGA).
| Cost Component | Estimated Range (MGA per project/year) | Notes |
|---|---|---|
| Initial Integration & Setup (Small to Medium Scale) | 5,000,000 - 25,000,000 MGA | Covers basic integration of 2-5 nodes, standard routing, and initial configuration. |
| Initial Integration & Setup (Large or Complex Scale) | 25,000,000 - 100,000,000+ MGA | For numerous nodes, complex workflows, custom development, and high-security requirements. |
| DICOM Routing Software Licensing (Annual/Subscription) | 2,000,000 - 15,000,000+ MGA per year | Varies based on vendor, features, and number of nodes/users. Perpetual licenses may have a higher upfront cost. |
| Ongoing Maintenance & Support (Annual) | 1,500,000 - 10,000,000+ MGA per year | Typically 15-25% of the initial software/system cost. |
| Cloud Hosting & Services (Monthly/Annual) | 500,000 - 5,000,000+ MGA per month | Dependent on compute, storage, and data transfer volumes. Can be more predictable than on-premises. |
| Hardware (Servers, Storage - for On-Premises) | 5,000,000 - 30,000,000+ MGA (one-time) | Significant upfront investment for on-premises solutions. |
| Professional Services (Consulting, Implementation, Training) | 300,000 - 1,000,000+ MGA per day/person | Varies based on expertise and duration of engagement. |
| Dedicated Internet Bandwidth (Monthly) | 200,000 - 1,000,000+ MGA per month | Essential for reliable DICOM transfer; costs depend on speed and provider. |
Key Pricing Factors for DICOM Node Integration & Routing Service in Madagascar
- Integration Complexity: The number of DICOM nodes to integrate (e.g., imaging modalities, PACS, RIS, AI tools), the specific DICOM services required (e.g., C-STORE, C-FIND, C-MOVE), and the need for custom adapters or middleware will directly impact development time and cost.
- Data Volume & Throughput: Higher volumes of imaging data processed and transmitted necessitate more robust infrastructure, larger storage capacities, and potentially higher bandwidth, all contributing to increased costs.
- Infrastructure & Hardware: On-premises deployment requires investment in servers, storage, networking equipment, and potentially specialized DICOM servers. Cloud-based solutions involve compute, storage, and network egress fees.
- Software Licensing: DICOM routing software, PACS integration modules, and any associated middleware or workflow management tools often come with licensing fees, which can be perpetual or subscription-based.
- Service Provider Fees: Engaging with local or international IT service providers for implementation, configuration, and ongoing support will incur professional service fees.
- Security & Compliance: Implementing robust security measures (e.g., encryption, access control, audit trails) and ensuring compliance with relevant healthcare data regulations (even if local regulations are nascent, international standards are often followed) can add to the cost.
- Customization & Development: If standard solutions don't meet specific requirements, custom development for workflow automation, reporting, or unique routing logic will increase costs.
- Ongoing Maintenance & Support: Annual maintenance contracts, software updates, technical support, and potential hardware replacements are recurring expenses.
- Bandwidth & Connectivity: Reliable and sufficient internet bandwidth is crucial for seamless DICOM data transfer. The cost of dedicated internet access (DIA) or reliable broadband can be a factor.
- Training: Training for IT staff and clinical users on the new DICOM integration and routing system is an essential, though often overlooked, cost.
Affordable Dicom Node Integration & Routing Service Options
Integrating a DICOM (Digital Imaging and Communications in Medicine) node and establishing robust routing capabilities is crucial for modern healthcare imaging workflows. This service focuses on enabling seamless data exchange between imaging devices, PACS (Picture Archiving and Communication Systems), and other clinical applications. We offer flexible value bundles and cost-saving strategies to make this essential functionality accessible to a wide range of healthcare providers, from small clinics to large hospital networks. Our goal is to reduce the financial burden often associated with specialized IT infrastructure while ensuring compliance and efficiency.
| Value Bundle | Description | Included Features | Cost-Saving Strategies | Target Audience |
|---|---|---|---|---|
| Starter Node Pack | Basic DICOM node setup and essential routing for small imaging departments or clinics. | Up to 2 DICOM node integrations, basic AE management, simple routing rules, email notifications. | Bundled pricing, reduced upfront investment, minimal IT overhead. | Small clinics, individual imaging practices, departments with limited imaging volume. |
| Growth Routing Suite | Enhanced routing capabilities and support for moderate imaging volumes, ideal for expanding practices. | Up to 5 DICOM node integrations, advanced routing logic (conditional routing), basic data validation, API access for integration. | Tiered pricing based on usage, predictable operational costs, integration with existing EMR/RIS. | Medium-sized clinics, multi-specialty practices, departments with growing imaging needs. |
| Enterprise Workflow Integrator | Comprehensive DICOM node integration, advanced routing, data transformation, and robust monitoring for large healthcare organizations. | Unlimited DICOM node integrations, complex routing workflows, data anonymization/reformatting, advanced monitoring & alerting, dedicated support. | Volume discounts, long-term contracts with price guarantees, phased implementation to manage costs, potential for cloud cost optimization. | Hospitals, large healthcare networks, research institutions, PACS vendors. |
| Custom Solutions | Tailored integration and routing solutions for unique or highly specialized DICOM workflow requirements. | Fully customizable based on specific project needs, including complex data manipulation, specialized protocol support, and integration with legacy systems. | Project-based pricing, focus on delivering precise ROI through workflow optimization, direct consultation with expert engineers. | Organizations with highly specialized imaging needs, unique regulatory requirements, or complex legacy systems. |
Key Features & Service Components
- DICOM Node Emulation & Integration: Our service allows you to integrate existing or new imaging modalities and workstations as DICOM nodes within your network. This includes AE (Application Entity) title management, network configuration, and secure communication protocols (e.g., TLS).
- Intelligent DICOM Routing: We implement sophisticated routing rules based on patient demographics, study attributes, modality type, destination PACS, or custom logic. This ensures that images are delivered to the correct location for storage, viewing, or further processing.
- Data Validation & Transformation: Our service can perform basic DICOM validation to ensure data integrity and can handle simple transformations (e.g., anonymization, reformatting) as required.
- Monitoring & Auditing: Comprehensive monitoring of DICOM traffic and robust audit trails provide visibility into data flow and troubleshooting capabilities.
- Scalability & Flexibility: Our solutions are designed to scale with your needs, accommodating increasing data volumes and evolving workflow requirements.
- Cloud-Based & On-Premise Options: We offer flexible deployment models to suit your existing IT infrastructure and security policies.
Verified Providers In Madagascar
In the vital realm of healthcare, finding verified providers in Madagascar is paramount for ensuring quality and trustworthy medical services. Among the entities dedicated to this critical task, Franance Health stands out. Their rigorous credentialing process and commitment to excellence make them a leading authority in verifying healthcare providers across Madagascar. This ensures that patients can access safe, effective, and ethically sound medical care.
| Provider Type | Verification Criteria (Franance Health) | Benefits for Patients |
|---|---|---|
| Medical Doctors | Valid Medical License, Specialty Certifications, Clean Disciplinary Record, Continuing Medical Education (CME) completion. | Access to qualified and experienced physicians, assurance of up-to-date medical knowledge, reduced risk of malpractice. |
| Hospitals & Clinics | Operational Licenses, Compliance with Health Regulations, Staff Qualifications, Infection Control Protocols, Patient Safety Measures. | Safe and well-equipped healthcare facilities, competent medical teams, adherence to hygiene standards, improved patient outcomes. |
| Specialist Practitioners (Dentists, Pharmacists, etc.) | Relevant Professional Licenses, Appropriate Training and Experience, Ethical Practice Adherence. | Access to skilled specialists in various fields, trustworthy advice and treatment, adherence to professional ethics. |
| Diagnostic Laboratories | Accreditation, Qualified Technicians, Equipment Calibration and Maintenance, Quality Control Procedures. | Accurate and reliable diagnostic results, confidence in test outcomes, informed treatment decisions. |
Why Franance Health is the Best Choice for Verified Providers in Madagascar:
- Comprehensive Vetting: Franance Health employs an extensive verification process that scrutinizes the qualifications, licenses, certifications, and ethical standing of all healthcare professionals and facilities.
- Commitment to Quality Standards: Their verification goes beyond basic documentation, assessing adherence to national and international quality of care standards, patient safety protocols, and best practices.
- Transparency and Trust: By providing a clear and accessible list of verified providers, Franance Health fosters transparency and builds trust between patients and healthcare professionals.
- Focus on Patient Well-being: The ultimate goal of Franance Health's credentialing is to safeguard patient well-being by connecting them with competent and reliable healthcare providers.
- Continuous Monitoring: Verification is not a one-time event; Franance Health engages in ongoing monitoring to ensure that providers maintain their standards and ethical conduct.
- Promoting Professionalism: Their work encourages a culture of professionalism and accountability within the Malagasy healthcare sector.
Scope Of Work For Dicom Node Integration & Routing Service
This document outlines the Scope of Work (SOW) for the integration and routing of a DICOM Node within an existing healthcare IT infrastructure. The objective is to establish reliable and secure communication pathways for DICOM objects, enabling seamless data exchange between various medical imaging modalities, Picture Archiving and Communication Systems (PACS), and other DICOM-compliant applications. This SOW details the technical deliverables and standard specifications required to achieve this integration.
| Phase | Description | Key Activities | Deliverables | Standard Specifications |
|---|---|---|---|---|
| Define the requirements, architecture, and security model for the DICOM Node and routing service. | Requirements gathering, system architecture design, network assessment, security policy definition, routing strategy development. | DICOM Node Architecture Document, Routing Strategy Document, Security Design Document. | DICOM Conformance Statement (preliminary), HL7 Standard (for potential integration), IHE profiles (if applicable), relevant security standards (e.g., HIPAA, GDPR). |
| Install, configure, and test the DICOM Node software or hardware. | DICOM Node installation, configuration (AE Title, port, IP address, etc.), basic connectivity testing, modality simulation. | Configured DICOM Node, Basic Connectivity Test Report. | DICOM Part 3 (Information Object Definitions), DICOM Part 4 (Service Class Specifications), DICOM Part 8 (Network Communication). |
| Implement and configure the routing engine based on defined rules. | Development of routing rules (e.g., by modality, study type, destination PACS), testing of routing logic, failover and load balancing configuration (if applicable). | Configured Routing Rules, Routing Logic Test Report. | DICOM Part 4 (Service Class Specifications), specific routing logic documentation. |
| Integrate the DICOM Node and routing service with existing systems and perform comprehensive testing. | End-to-end DICOM communication testing (C-STORE, C-FIND, C-MOVE), interoperability testing with modalities, PACS, and VNA, performance testing, load testing. | Integration Test Plan, Integration Test Results Report, Interoperability Test Report. | DICOM Part 3, 4, 8, 11 (Media Storage), IHE profiles (e.g., SWF, PIV). |
| Implement and validate security measures for DICOM communication. | TLS/SSL configuration, authentication and authorization setup, auditing and logging configuration, penetration testing (if required). | Security Configuration Documentation, Security Validation Report. | DICOM Part 15 (Security Profiles), TLS/SSL standards, relevant cybersecurity best practices. |
| Deploy the configured DICOM Node and routing service into the production environment. | Production deployment, final system validation, user acceptance testing (UAT), go-live readiness assessment. | Deployment Plan, Go-Live Checklist, UAT Sign-off. | Operational procedures, monitoring guidelines. |
| Provide comprehensive documentation and training for the implemented solution. | Finalize DICOM Conformance Statement, create administrator and user manuals, conduct training sessions, knowledge transfer. | Final DICOM Conformance Statement, Administrator Manual, User Manual, Training Materials, Project Closeout Report. | DICOM Part 3, 4, 8, 15, vendor-specific documentation. |
Project Objectives
- Establish a new DICOM Node that can send and receive DICOM objects.
- Configure routing rules to direct DICOM traffic to appropriate destinations.
- Ensure secure communication channels are established and maintained.
- Verify interoperability with existing DICOM and non-DICOM systems.
- Provide comprehensive documentation for the implemented solution.
Service Level Agreement For Dicom Node Integration & Routing Service
This Service Level Agreement (SLA) outlines the performance and availability commitments for the DICOM Node Integration & Routing Service (hereinafter referred to as "the Service"). This SLA applies to all subscribed users and defines the expected response times and uptime guarantees. Any defined terms are to be interpreted within the context of this document and related service documentation.
| Metric | Definition | Target | Measurement Period |
|---|---|---|---|
| Uptime Guarantee | Percentage of time the Service is accessible and functional for standard operations (excluding scheduled maintenance). | 99.9% | Monthly |
| DICOM C-STORE (Image Send) Response Time | Time taken from the initiation of a C-STORE request by a client node to the acknowledgment (ACK) or rejection (NACK) from the Service. | < 500 milliseconds for 95% of requests | Monthly |
| DICOM C-FIND (Query) Response Time | Time taken from the initiation of a C-FIND request by a client node to the first result returned by the Service. | < 1 second for 90% of requests | Monthly |
| DICOM C-MOVE (Retrieve) Response Time | Time taken from the initiation of a C-MOVE request by a client node to the Service acknowledging the request and initiating the transfer. | < 2 seconds for 90% of requests | Monthly |
| Scheduled Maintenance Window | Pre-announced periods for planned system upgrades and maintenance. These periods are excluded from uptime calculations. | Maximum 4 hours per month, typically on weekends during off-peak hours. Advance notice of at least 48 hours will be provided. | N/A |
Key Service Objectives
- Ensure reliable and timely routing of DICOM images and related metadata between integrated DICOM nodes.
- Maintain high availability of the Service to support critical clinical workflows.
- Provide predictable and responsive interaction for DICOM query and retrieve operations.
- Offer clear and measurable performance metrics for service utilization.
In-Depth Guidance
Frequently Asked Questions
Phase 02: Execution
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