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DICOM Node Integration & Routing Service in Ethiopia
Engineering Excellence & Technical Support
DICOM Node Integration & Routing Service High-standard technical execution following OEM protocols and local regulatory frameworks.
Seamless DICOM Node Integration
Our service streamlines the integration of diverse DICOM nodes across Ethiopian healthcare facilities, ensuring interoperability and data flow between modalities, PACS, and RIS. We manage complex network configurations and troubleshooting to guarantee robust and reliable connectivity.
Intelligent DICOM Routing
Leveraging advanced routing algorithms, we enable intelligent and rule-based distribution of DICOM studies to the appropriate destinations within Ethiopian hospitals. This optimizes workflow, reduces manual intervention, and ensures timely access to medical images for diagnosis and treatment.
Secure & Compliant Data Exchange
We implement stringent security protocols and adhere to Ethiopian data privacy regulations for secure DICOM data transmission and storage. Our service ensures data integrity and confidentiality, safeguarding sensitive patient information throughout the routing process.
What Is Dicom Node Integration & Routing Service In Ethiopia?
The DICOM Node Integration & Routing Service in Ethiopia refers to a specialized set of capabilities and protocols designed to facilitate the secure and efficient exchange of medical imaging data (DICOM - Digital Imaging and Communications in Medicine) between healthcare institutions and stakeholders within Ethiopia. This service encompasses the configuration, deployment, and ongoing management of DICOM network nodes and the implementation of robust routing mechanisms to ensure that imaging studies are accurately directed to their intended destinations. It is critical for enabling Picture Archiving and Communication Systems (PACS), imaging modalities (e.g., CT, MRI, X-ray), and other diagnostic systems to interoperate seamlessly. The integration aspect ensures that disparate systems can understand and process DICOM messages, while the routing component dictates the flow of this data across networks, often over IP-based infrastructures. Security, interoperability standards, and adherence to local regulatory requirements are paramount for such a service.
| Who Needs This Service? | Typical Use Cases | |||||
|---|---|---|---|---|---|---|
| Hospitals and Clinics: Requiring centralized PACS or distributed imaging systems to manage and share imaging studies across departments and facilities. | Radiology Departments: For receiving images from various modalities, archiving them in PACS, and distributing them to radiologists for interpretation. | Specialized Imaging Centers: That may need to send images to referring physicians or tertiary care centers for consultation or further treatment. | Telemedicine Providers: Enabling the remote transmission of medical images for expert diagnosis from afar. | Medical Imaging Equipment Vendors: Deploying new imaging modalities that need to integrate with existing hospital IT infrastructure. | Healthcare IT Integrators and Consultants: Responsible for designing and implementing these systems for healthcare providers. | Government Health Ministries and Agencies: For national health information exchange initiatives and oversight. |
| Centralized PACS Deployment: Routing images from multiple modalities within a single hospital to a central PACS for storage and retrieval. | Multi-Site Imaging Network: Enabling image sharing and collaboration between different branches of a healthcare organization or affiliated hospitals. | Referral Workflow Management: Automatically routing specific imaging studies to external specialists or consulting radiologists. | Teleradiology Services: Transmitting images to off-site radiologists for interpretation, often across geographical distances. | Research Data Archiving: Directing anonymized or de-identified imaging datasets to research databases for analysis. | Disaster Recovery and Business Continuity: Replicating DICOM data to secondary storage sites for redundancy. | Integration with EMR/EHR Systems: Linking DICOM images to patient records for a comprehensive clinical view. |
Key Components of DICOM Node Integration & Routing Service:
- DICOM Node Configuration: Setting up devices (modalities, PACS, workstations) to act as DICOM entities with unique AE Titles, IP addresses, and port numbers.
- Network Connectivity: Establishing and managing secure network pathways (LAN, WAN, VPN) between DICOM nodes.
- DICOM Association Management: Implementing the DICOM C-STORE, C-FIND, C-MOVE, and other service class user/provider protocols for image transfer and query.
- Routing Logic Implementation: Defining rules and policies for directing DICOM objects (images, reports) based on various criteria (e.g., modality type, patient ID, study instance UID, destination PACS).
- Security Measures: Incorporating encryption (e.g., TLS/SSL for DICOM), authentication, and access control to protect sensitive patient data.
- Workflow Integration: Aligning DICOM routing with clinical workflows to ensure timely access to images for diagnosis and treatment planning.
- Monitoring and Auditing: Implementing systems for tracking DICOM traffic, identifying errors, and maintaining audit trails for compliance and troubleshooting.
- Interoperability Standards Adherence: Ensuring compliance with the latest DICOM standards (e.g., DICOM Part 10 for file formats) and relevant healthcare IT frameworks.
Who Needs Dicom Node Integration & Routing Service In Ethiopia?
The DICOM Node Integration & Routing Service is essential for any healthcare organization in Ethiopia that needs to securely and efficiently manage, store, and share medical imaging data (like X-rays, CT scans, MRIs). This service acts as a central hub, enabling different medical devices and imaging systems to communicate and send data to a common repository or PACS (Picture Archiving and Communication System). It ensures data integrity, facilitates faster diagnoses, and improves interoperability between various healthcare facilities.
| Target Customer Segment | Key Departments/Users | Primary Needs Addressed by the Service |
|---|---|---|
| Public Hospitals | Radiology Department, IT Department, Clinical Departments (Cardiology, Neurology, Oncology, Surgery, Emergency), Administration | Centralized image management, improved workflow efficiency, remote access for specialists, disaster recovery, inter-departmental data sharing, compliance with data standards. |
| Private Hospitals & Clinics | Radiology Department, IT Department, Clinical Departments, Administration, Business Development | Enhanced patient care through faster image access, increased operational efficiency, competitive advantage through modern technology, potential for telemedicine and remote consultations. |
| Dedicated Radiology Centers | Radiologists, Technologists, IT Department, Administration | Efficient handling of high volumes of imaging studies, seamless integration with referring physicians' offices, archiving and retrieval of historical data, compliance with regulatory requirements. |
| Specialty Clinics | Specialist Physicians (Cardiologists, Neurologists, Oncologists, etc.), Technologists, IT Department | Easy access to relevant imaging studies for diagnosis and treatment planning, integration with Electronic Health Records (EHRs), specialized image analysis capabilities. |
| Research Institutions | Researchers, Radiologists, Data Analysts, IT Department | Secure storage and retrieval of large imaging datasets for research purposes, de-identification of patient data, facilitating multi-site research collaborations. |
| Government Health Ministries/Regional Bureaus | Public Health Officials, IT and Data Management Teams, Epidemiologists | National or regional image data aggregation for public health monitoring and disease surveillance, standardization of imaging practices, facilitating data-driven policy making. |
Target Customers and Departments in Ethiopia:
- Hospitals (Public and Private)
- Radiology Centers
- Specialty Clinics (e.g., Cardiology, Neurology, Oncology)
- Diagnostic Imaging Laboratories
- Research Institutions focused on medical imaging
- Government Health Ministries and Regional Health Bureaus
Dicom Node Integration & Routing Service Process In Ethiopia
This document outlines the typical workflow for integrating a DICOM (Digital Imaging and Communications in Medicine) node and establishing a routing service within the Ethiopian healthcare landscape. The process begins with an initial inquiry and progresses through a series of technical, administrative, and operational steps to ensure seamless data exchange between healthcare facilities.
| Phase | Key Activities | Responsible Parties | Deliverables/Outcomes |
|---|---|---|---|
| Phase 1: Initiation | Healthcare facility identifies a need for DICOM integration and/or a routing service. Initial discussions with potential vendors or internal IT teams. Assessment of existing imaging infrastructure and IT capabilities. | Healthcare Facility IT Department, Clinical Departments, Potential Vendors | Needs assessment report, preliminary requirements documentation. |
| Phase 2: Design & Planning | Detailed technical assessment of the facility's network, PACS (Picture Archiving and Communication System) if any, and modality (imaging device) compatibility. Design of the DICOM node architecture and routing logic. Selection of appropriate DICOM middleware or PACS software. Vendor proposal submission and evaluation. | Healthcare Facility IT Department, DICOM Vendor/Integrator, Network Engineers | Technical design document, system architecture, vendor selection, finalized proposal. |
| Phase 3: Procurement & Setup | Contract negotiation and signing with the selected vendor. Procurement of hardware (servers, network switches) and software licenses. Installation of DICOM software/middleware on designated servers. Basic hardware and software configuration. | Healthcare Facility Procurement Department, Legal Team, DICOM Vendor, IT Department | Signed contract, procured hardware/software, installed DICOM software. |
| Phase 4: Integration & Configuration | Network connectivity setup between the new DICOM node, existing PACS (if applicable), modalities, and other DICOM endpoints. Configuration of DICOM services (e.g., C-STORE, C-FIND, C-MOVE). Definition and implementation of routing rules based on modality, study type, destination, etc. DICOM conformance statement generation and validation. | DICOM Vendor/Integrator, Network Engineers, Healthcare Facility IT Department, Modality Vendors | Established network connectivity, configured DICOM services, defined routing rules, validated DICOM conformance. |
| Phase 5: Testing & Validation | Rigorous testing of DICOM image sending and receiving. Verification of routing accuracy. User Acceptance Testing (UAT) with radiologists and technologists. Performance and load testing. | Healthcare Facility IT Department, Clinical Users (Radiologists, Technologists), DICOM Vendor/Integrator | Test reports, UAT sign-off, validated image workflow. |
| Phase 6: Deployment & Training | Deployment of the integrated DICOM node and routing service into the production environment. Comprehensive training for IT staff on system administration and troubleshooting. Training for clinical users on how to interact with the new system and understand routing behavior. | DICOM Vendor/Integrator, Healthcare Facility IT Department, Clinical Users | Live DICOM node and routing service, trained personnel. |
| Phase 7: Post-Implementation & Support | Ongoing monitoring of system performance, uptime, and data flow. Routine maintenance, software updates, and patching. Troubleshooting of any operational issues. Regular system audits for security and compliance. Continuous optimization of routing rules as needed. | Healthcare Facility IT Department, DICOM Vendor/Integrator (support contract), System Administrators | Stable and reliable DICOM service, documented maintenance, support tickets resolved, system performance reports. |
DICOM Node Integration & Routing Service Process: Ethiopia
- Initial Inquiry & Needs Assessment
- Technical Feasibility Study & Solution Design
- Vendor Selection & Proposal
- Contract Negotiation & Procurement
- Hardware & Software Installation
- Network Configuration & Connectivity
- DICOM Conformance Statement & Testing
- Routing Rule Definition & Configuration
- User Training & Onboarding
- Pilot Implementation & Validation
- Full-Scale Deployment & Go-Live
- Ongoing Monitoring, Maintenance & Support
- Regulatory Compliance & Auditing
Dicom Node Integration & Routing Service Cost In Ethiopia
Integrating a DICOM (Digital Imaging and Communications in Medicine) Node and implementing a routing service is a critical step for healthcare facilities in Ethiopia looking to streamline medical image management and data exchange. The cost associated with this service is influenced by several factors, making a precise universal quote difficult without detailed project scoping. However, we can outline the key pricing drivers and provide an estimated range in Ethiopian Birr (ETB).
| Service Component/Scope | Estimated Cost Range (ETB) | Notes |
|---|---|---|
| Basic DICOM Node Integration (1-2 Sources) | 50,000 - 150,000 ETB | For simple integration of a few modalities to a central PACS/archive, with basic routing. |
| Moderate DICOM Node Integration & Routing (3-5 Sources, Basic Routing Rules) | 150,000 - 350,000 ETB | Includes integration of more sources and implementation of moderate routing rules (e.g., by study type). |
| Advanced DICOM Node Integration & Complex Routing (5+ Sources, Advanced Rules, EHR/HIS Integration) | 350,000 - 800,000+ ETB | Covers extensive integrations, complex conditional routing, and integration with existing hospital systems, potentially involving custom development. |
| Ongoing Maintenance & Support (Annual) | 10% - 20% of initial project cost (annually) | Covers software updates, bug fixes, technical support, and system monitoring. |
| Custom Development/API Integration | Variable (hourly/project-based) | Priced based on the complexity and hours required for specific custom features or deep system integrations. |
| Training & Documentation | 20,000 - 75,000 ETB | Depending on the number of users and the depth of training required. |
Key Pricing Factors for DICOM Node Integration & Routing Service in Ethiopia:
- Scope of Integration: The complexity of integrating the DICOM node with existing Picture Archiving and Communication Systems (PACS), Electronic Health Records (EHRs), or other hospital information systems (HIS) directly impacts cost. More integrations mean higher complexity.
- Number of DICOM Nodes/Sources: The more imaging modalities (e.g., X-ray machines, CT scanners, MRI machines, ultrasound devices) or existing DICOM servers that need to be connected as sources, the greater the integration effort and cost.
- Routing Complexity: Simple point-to-point routing is less expensive than complex rules-based routing based on patient demographics, study type, referring physician, or destination modality. Implementing advanced routing logic requires more development and testing.
- Data Volume & Bandwidth Requirements: While not directly a service cost, the volume of data to be transferred and the required bandwidth can influence the need for specialized infrastructure or network upgrades, which might be bundled or recommended as part of the solution.
- Customization & Development: If off-the-shelf solutions are insufficient and require custom development for specific workflows, integration layers, or user interfaces, costs will increase.
- Vendor Expertise & Support: The experience and reputation of the service provider, as well as the level of ongoing technical support and maintenance required, are significant cost components.
- Training: Training for IT staff and clinical users on operating and managing the DICOM routing service is often included or offered as a separate service.
- Hardware & Software Requirements: While the service is primarily about integration and software, there might be recommendations or requirements for specific hardware (e.g., servers, network devices) or software licenses that add to the overall expenditure.
- Project Management & Consulting: Comprehensive project management, workflow analysis, and consulting services to ensure seamless implementation can add to the total cost.
Affordable Dicom Node Integration & Routing Service Options
Integrating DICOM (Digital Imaging and Communications in Medicine) nodes and establishing robust routing services can be a significant technical and financial undertaking for healthcare organizations. This service focuses on providing cost-effective solutions for seamless DICOM communication, ensuring efficient image sharing and workflow optimization. We offer flexible value bundles designed to meet diverse needs and budgets, alongside strategic cost-saving measures to maximize your investment.
| Value Bundle | Description | Key Services Included | Target Audience | Estimated Cost Range |
|---|---|---|---|---|
| Essential Connect | A foundational package for organizations needing basic integration and routing capabilities. | Up to 5 DICOM node integrations, basic rule-based routing configuration, initial setup and testing, remote support. | Small clinics, individual imaging centers, departments with limited DICOM integration needs. | $X,XXX - $X,XXX per month |
| Standard Workflow | A comprehensive solution for organizations requiring more robust routing and a focus on workflow optimization. | Up to 15 DICOM node integrations, advanced rule-based routing, HL7 integration (if applicable), basic monitoring and reporting, dedicated account manager. | Medium-sized hospitals, multi-site imaging groups, organizations with moderate workflow complexity. | $X,XXX - $XX,XXX per month |
| Enterprise Suite | An all-encompassing service for large healthcare systems with complex integration, high volumes, and advanced routing requirements. | Unlimited DICOM node integrations, highly customizable routing logic, advanced monitoring and alerting, performance optimization, dedicated technical support, migration assistance. | Large hospital networks, academic medical centers, organizations with extensive PACS/RIS infrastructure. | $XX,XXX+ per month |
| Custom Solutions | Tailored packages to address unique or highly specialized DICOM integration and routing needs. | Fully customized based on client requirements. | Any organization with specific, non-standard needs. | Quoted per project |
Key Features & Benefits
- Streamlined DICOM Node Integration: Effortlessly connect new or existing imaging modalities, PACS (Picture Archiving and Communication Systems), RIS (Radiology Information Systems), and other healthcare IT systems.
- Intelligent DICOM Routing: Implement rule-based routing to direct images and data to the correct destinations based on modality, study type, patient demographics, or other customizable criteria.
- Enhanced Workflow Efficiency: Reduce manual intervention, minimize data silos, and accelerate the flow of critical imaging information to radiologists and referring physicians.
- Scalable Solutions: Our services are designed to grow with your organization, accommodating increasing volumes of DICOM data and expanding integration needs.
- Improved Data Accessibility: Ensure that the right images and information are available at the right time, supporting timely diagnosis and treatment planning.
- Vendor-Neutral Approach: We facilitate integration across a wide range of DICOM-compliant vendors, avoiding vendor lock-in.
Verified Providers In Ethiopia
In Ethiopia's evolving healthcare landscape, discerning between legitimate and fraudulent providers is paramount for patient safety and well-being. Verified providers, those who have undergone rigorous credentialing processes, offer a crucial layer of trust and assurance. Franance Health stands out as a leader in this domain, meticulously vetting its network of healthcare professionals and facilities. Their commitment to upholding the highest standards of medical practice, ethical conduct, and patient care makes them a distinguished choice for those seeking reliable healthcare services in Ethiopia.
| Aspect | Franance Health's Approach | Benefit to Patients |
|---|---|---|
| Verification Standard | Comprehensive and multi-layered, encompassing education, licensure, experience, and ethics. | Ensures access to qualified and trustworthy healthcare professionals. |
| Quality Assurance | Focuses on clinical excellence, patient-centered care, and continuous improvement. | Provides access to high-quality medical treatment and positive patient experiences. |
| Risk Mitigation | Rigorous checks to identify and exclude providers with a history of malpractice or misconduct. | Minimizes the risk of encountering fraudulent or substandard healthcare services. |
| Provider Network | Curated network of diverse and skilled healthcare professionals and facilities. | Offers a wide range of options to meet various medical needs effectively. |
| Patient Empowerment | Promotes transparency and provides accessible information about verified providers. | Enables informed decision-making and greater control over healthcare choices. |
Why Franance Health Represents the Best Choice for Verified Providers in Ethiopia:
- Rigorous Credentialing Process: Franance Health implements a multi-stage verification system that scrutinizes educational qualifications, professional licenses, work experience, and ethical standing of every provider in their network.
- Commitment to Quality Care: Beyond basic credentials, Franance Health assesses providers based on their demonstrated commitment to patient-centered care, adherence to clinical best practices, and continuous professional development.
- Patient Safety Focus: The vetting process prioritizes patient safety by identifying and excluding providers with a history of malpractice or ethical breaches. This ensures that patients are accessing care from reputable and trustworthy sources.
- Comprehensive Network: Franance Health offers access to a diverse range of verified healthcare professionals and facilities, catering to various medical needs and specialties across Ethiopia.
- Transparency and Accessibility: Franance Health promotes transparency by making information about its verified providers readily accessible, empowering patients to make informed decisions about their healthcare.
- Ethical Practice Advocacy: The organization actively advocates for ethical healthcare practices, contributing to a more trustworthy and reliable healthcare system in Ethiopia.
Scope Of Work For Dicom Node Integration & Routing Service
This Scope of Work (SOW) outlines the requirements for integrating a new DICOM node into an existing healthcare IT infrastructure and establishing a robust DICOM routing service. The objective is to enable seamless exchange of medical imaging data between various DICOM-compliant devices and applications, ensuring data integrity, security, and efficient workflow.
| Phase | Activity | Description | Deliverables | Technical Specifications / Standards |
|---|---|---|---|---|
| Phase 1: Planning & Design | Requirements Gathering | Understand the specific DICOM node's capabilities, the existing network topology, and the desired routing logic. Identify all DICOM Application Entities (AEs) involved. | Detailed Requirements Document, Network Diagram (updated) | DICOM Conformance Statements (for existing and new nodes), HL7 for enterprise integration (if applicable) |
| Phase 1: Planning & Design | Architecture Design | Define the DICOM routing architecture, including the choice of routing software/hardware, server configurations, and network segmentation. | DICOM Routing Architecture Document | DICOM Network Model (NEMA PS3.4), TCP/IP Networking Standards |
| Phase 1: Planning & Design | Security Design | Outline security measures for DICOM communication, including authentication, authorization, and encryption. | Security Design Document | DICOM Security profiles (NEMA PS3.15), TLS/SSL for secure transport (if implemented) |
| Phase 2: Implementation | DICOM Node Installation & Configuration | Install and configure the new DICOM node according to manufacturer specifications and network requirements. Register the node's AE title, IP address, port, and transfer syntaxes. | Configured DICOM Node | DICOM Part 8 (Network Communication), DICOM Part 10 (Media Storage - if applicable), Specific Vendor DICOM Conformance Statements |
| Phase 2: Implementation | DICOM Routing Service Setup | Install and configure the DICOM routing service (e.g., router appliance, software). Define routing rules based on AE titles, Study Instance UIDs, SOP Class UIDs, etc. | Operational DICOM Routing Service | DICOM Part 8 (Network Communication), DICOM Part 4 (Service Class Specifications), JSON/XML for configuration files |
| Phase 2: Implementation | Network Connectivity Configuration | Ensure proper network connectivity between the new DICOM node, the routing service, and other DICOM AEs. Configure firewalls and network devices. | Established Network Paths | TCP/IP Networking Standards, Firewall configuration guidelines |
| Phase 2: Implementation | Security Implementation | Implement defined security measures, such as configuring TLS/SSL certificates, setting up access controls, and enabling audit logging. | Secured DICOM Communication Channels | DICOM Security profiles (NEMA PS3.15), TLS/SSL v1.2+, AES encryption algorithms |
| Phase 3: Testing & Validation | Unit Testing | Test individual components of the DICOM node and routing service to ensure they function as expected. | Unit Test Reports | DICOM Conformance Statements, Protocol specifications |
| Phase 3: Testing & Validation | Integration Testing | Verify the successful exchange of DICOM messages (C-STORE, C-FIND, C-MOVE, etc.) between the new node, the router, and other existing AEs. | Integration Test Report | DICOM Part 8, DICOM Part 4, DICOM Part 10 |
| Phase 3: Testing & Validation | Performance Testing | Assess the throughput, latency, and scalability of the DICOM routing service under various load conditions. | Performance Test Report | Network monitoring tools, Load testing methodologies |
| Phase 3: Testing & Validation | Security Testing | Validate the effectiveness of implemented security measures against potential threats. | Security Test Report | Penetration testing reports, Vulnerability assessment reports |
| Phase 4: Deployment & Handover | Production Deployment | Deploy the configured DICOM node and routing service into the production environment. | Live DICOM Integration | Change management procedures |
| Phase 4: Deployment & Handover | User Acceptance Testing (UAT) | Allow end-users to test the integrated system and provide feedback. | UAT Sign-off | User workflow documentation |
| Phase 4: Deployment & Handover | Documentation Handover | Provide comprehensive documentation including configuration guides, troubleshooting procedures, and routing rule descriptions. | Final Project Documentation | User Manuals, System Administration Guides, Troubleshooting Guides |
| Phase 4: Deployment & Handover | Training | Provide training to IT staff on managing and maintaining the DICOM node and routing service. | Training Materials, Delivered Training Sessions | N/A |
Project Objectives
- Integrate a new DICOM node (e.g., PACS, modality, viewer) with the existing DICOM network.
- Configure and implement a DICOM routing service to direct images and related information to appropriate destinations.
- Ensure adherence to DICOM standards for communication and data format.
- Establish secure communication channels for DICOM traffic.
- Provide comprehensive documentation for the integrated system and routing rules.
- Conduct thorough testing to validate functionality, performance, and reliability.
Service Level Agreement For Dicom Node Integration & Routing Service
This Service Level Agreement (SLA) outlines the performance guarantees for the DICOM Node Integration & Routing Service. It defines the expected response times and uptime for the service, ensuring reliable operation of integrated DICOM nodes and efficient routing of DICOM messages.
| Metric | Target | Measurement | Remediation |
|---|---|---|---|
| DICOM Message Processing Response Time (within the routing service) | <= 500 milliseconds | Average response time for 95% of messages over a 5-minute interval. | If consistently missed for 3 consecutive business days, investigate root cause and implement corrective actions. Review SLA quarterly. |
| DICOM Node Integration Availability | 99.9% | Percentage of time all registered DICOM nodes are reachable and can successfully establish a connection (e.g., C-STORE, C-FIND initiation) with the routing service over a calendar month. | If monthly availability drops below 99.9%, provide a root cause analysis and a plan for improvement. Consider service credits for sustained outages. |
| DICOM Routing Service Uptime | 99.95% | Percentage of time the DICOM Routing Service is fully operational and capable of receiving, processing, and forwarding DICOM messages over a calendar month. This excludes scheduled maintenance windows. | If monthly uptime drops below 99.95%, provide a root cause analysis and a plan for improvement. Consider service credits based on the duration of downtime. |
| Scheduled Maintenance | Maximum 2 hours per month | Advance notification of at least 48 hours for all scheduled maintenance. Maintenance windows will be scheduled during off-peak hours (e.g., weekends, late night). | Any unscheduled maintenance exceeding 1 hour will be communicated proactively and will count towards the uptime metric. |
Key Service Components & Definitions
- DICOM Node Integration: The ability for external DICOM entities to connect to and be recognized by the routing service.
- DICOM Routing Service: The core functionality responsible for receiving, processing, and forwarding DICOM messages based on configured rules.
- Response Time: The time taken for the DICOM Routing Service to acknowledge receipt of a DICOM message and initiate processing/forwarding.
- Uptime: The percentage of time the DICOM Routing Service is operational and available to process requests.
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