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DICOM Node Integration & Routing Service in Angola
Engineering Excellence & Technical Support
DICOM Node Integration & Routing Service High-standard technical execution following OEM protocols and local regulatory frameworks.
Centralized DICOM Node Integration
Enables seamless integration of diverse DICOM modalities and PACS systems across Angolan healthcare facilities. Our service provides a robust, scalable platform for standardized DICOM data exchange, ensuring interoperability and reducing integration complexities.
Intelligent DICOM Data Routing
Leverages advanced rule-based and AI-powered routing to intelligently direct medical imaging studies to the appropriate PACS, RIS, or modality destinations. This optimizes workflow, reduces manual intervention, and accelerates diagnostic turnaround times for Angolan clinicians.
Secure & Compliant DICOM Operations
Implements industry-leading security protocols and adherence to relevant data privacy regulations for DICOM data transmission and storage within Angola. Our service ensures data integrity, confidentiality, and secure access, building trust and compliance for healthcare providers.
What Is Dicom Node Integration & Routing Service In Angola?
DICOM (Digital Imaging and Communications in Medicine) Node Integration & Routing Service in Angola refers to the specialized provision of infrastructure, software, and expertise designed to facilitate the seamless exchange, management, and distribution of medical imaging data within healthcare facilities and across networks in Angola. This service addresses the complexities inherent in establishing and maintaining interoperable DICOM environments, ensuring that medical images generated by various modalities (e.g., X-ray, CT, MRI, Ultrasound) can be reliably sent, received, stored, and accessed by authorized users and systems. It involves the configuration and management of DICOM nodes (devices or applications that communicate using the DICOM standard) and the implementation of intelligent routing mechanisms to direct DICOM messages (including images, reports, and patient information) to their intended destinations within a healthcare network or between different institutions.
| Who Needs It | Typical Use Cases | ||||||||
|---|---|---|---|---|---|---|---|---|---|
| Hospitals and Clinics (Public and Private): Any healthcare institution that utilizes medical imaging modalities and requires internal distribution or external sharing of these images. | Radiology Departments: Central to DICOM operations, requiring efficient routing to PACS, workstations, and reporting systems. | Imaging Centers: Facilities that perform a high volume of diagnostic imaging and need to manage and distribute studies. | Teleradiology Providers: Organizations that provide remote radiology interpretation services, necessitating secure and reliable DICOM data transmission to and from referring institutions. | Medical Equipment Vendors and Integrators: Companies that install and integrate new imaging equipment into existing healthcare IT infrastructures. | Healthcare IT Departments: Responsible for the overall management and interoperability of healthcare information systems. | Government Health Agencies: For public health initiatives involving the collection and analysis of medical imaging data. | Research Institutions: Requiring access to anonymized or de-identified DICOM datasets for studies. | Any facility involved in cross-institutional medical image sharing: For consultations, second opinions, or patient transfers. | |
| Internal Image Distribution: Routing images from modalities to PACS and then to radiologist workstations for interpretation. | External Image Sharing: Sending studies to external specialists for consultation or to referring physicians. | Teleradiology Workflows: Transmitting studies from a primary imaging site to a remote teleradiology group for interpretation. | Multi-site Healthcare Networks: Enabling seamless image exchange between different branches or facilities of a larger healthcare organization. | Integration with RIS/EHR: Sending DICOM images and relevant study information to the Radiology Information System (RIS) and Electronic Health Record (EHR) for comprehensive patient record management. | Emergency Department Workflow: Prioritizing and routing critical imaging studies for rapid review. | Disaster Recovery and Business Continuity: Ensuring DICOM data can be accessed and routed from backup or secondary sites in case of primary site failure. | Research Data Aggregation: Collecting DICOM data from multiple sources for research purposes. | Quality Assurance and Peer Review: Routing studies for internal review and quality control processes. | Patient Access to Images: Potentially facilitating secure access of DICOM images for patients via patient portals. |
What This Service Involves
- DICOM Node Configuration and Registration: Setting up and registering imaging devices, Picture Archiving and Communication Systems (PACS), workstations, and other medical imaging equipment as DICOM nodes on a network. This includes defining AE Titles, IP addresses, ports, and transfer syntaxes.
- Network Infrastructure Setup and Management: Ensuring a robust and secure network capable of handling large volumes of DICOM data, including proper network segmentation, firewall configurations, and bandwidth management.
- DICOM Conformance Statement Management: Understanding and ensuring compliance with the DICOM Conformance Statements of various vendors and devices to guarantee interoperability.
- Routing Rules and Logic Implementation: Designing and implementing rules-based routing to direct DICOM objects based on criteria such as patient demographics, study type, referring physician, modality, or destination PACS/RIS.
- Workflow Integration: Integrating DICOM routing with existing clinical workflows, such as radiology information systems (RIS), electronic health records (EHRs), and teleradiology platforms.
- Security Implementation: Applying robust security measures to protect sensitive patient data during transmission and storage, including encryption, access control, and audit logging.
- Troubleshooting and Support: Providing ongoing technical support to diagnose and resolve issues related to DICOM communication, data integrity, and routing failures.
- Performance Monitoring and Optimization: Continuously monitoring the performance of the DICOM network and routing service to identify and address bottlenecks and ensure efficient data flow.
- Data Archiving and Retrieval Strategy: Facilitating the integration with archiving solutions (PACS) and ensuring efficient retrieval of DICOM studies.
- Compliance and Regulatory Adherence: Ensuring that the DICOM node integration and routing service adheres to relevant Angolan healthcare regulations and data privacy laws.
Who Needs Dicom Node Integration & Routing Service In Angola?
The DICOM Node Integration & Routing Service is crucial for any organization in Angola dealing with medical imaging. This service acts as a central nervous system for medical image data, enabling seamless transfer, storage, and retrieval of DICOM (Digital Imaging and Communications in Medicine) files between various medical devices and systems. It ensures that imaging equipment from different manufacturers can communicate effectively, overcoming proprietary barriers and standardizing data flow. This leads to improved workflow efficiency, enhanced diagnostic accuracy through better accessibility of images, and streamlined patient care.
| Customer Type | Key Departments & Their Needs |
|---|---|
| Hospitals (Public and Private) | Radiology/Imaging Departments: Seamless integration with modalities (CT, MRI, X-ray, Ultrasound), PACS (Picture Archiving and Communication System), and VNA (Vendor Neutral Archive). Need for efficient image routing to radiologists and referring physicians. IT Departments: Centralized management of imaging network, security, and data integrity. Clinical Departments (e.g., Cardiology, Neurology, Oncology): Quick access to historical and current imaging studies for diagnosis and treatment planning. Emergency Departments: Immediate availability of critical imaging for urgent patient care. Administration: Improved operational efficiency, cost savings through optimized workflows, and compliance with data standards. |
| Clinics and Diagnostic Imaging Centers | Imaging Technologists: Efficient acquisition and immediate routing of images to radiologists for interpretation. Radiologists: Fast and reliable access to images for reporting. Reception/Administration: Streamlined patient workflow, efficient scheduling and retrieval of imaging studies. IT/Technical Staff: Reliable and maintainable DICOM infrastructure. |
| Specialized Medical Centers | Specialist Physicians (e.g., Cardiologists, Neurologists): Access to specific imaging modalities (e.g., Cardiac MRI, PET-CT) and specialized viewing software. Need for integrated workflows with other patient data. Imaging Scientists/Researchers: Ability to access and export anonymized imaging data for research purposes. Clinical Support Staff: Efficient retrieval of imaging for patient consultations and treatment. |
| Government Health Ministries and Agencies | Public Health Initiatives: Facilitating nationwide image sharing for disease surveillance, remote consultations, and public health research. Health Information Exchange (HIE) Initiatives: Integration of DICOM data into broader health information exchange platforms. Quality Assurance and Auditing: Ensuring adherence to medical imaging standards and data governance. |
| Research Institutions and Universities | Medical Researchers: Access to large datasets of medical images for developing new diagnostic techniques, AI algorithms, and understanding disease progression. Medical Educators: Providing students with access to real-world imaging cases for learning and training. IT Infrastructure Management: Supporting the complex networking and data storage needs of research projects. |
| Telemedicine Providers | Remote Radiologists/Interpreters: Secure and efficient transmission of DICOM images from remote locations for interpretation. Telemedicine Platform Administrators: Ensuring smooth integration of DICOM routing with their telemedicine software. Patients: Indirect benefit through improved access to specialist consultations regardless of geographic location. |
Target Customers and Departments in Angola:
- Hospitals (Public and Private)
- Clinics and Diagnostic Imaging Centers
- Specialized Medical Centers (e.g., Cardiology, Oncology, Neurology)
- Government Health Ministries and Agencies
- Research Institutions and Universities with Medical Programs
- Telemedicine Providers
Dicom Node Integration & Routing Service Process In Angola
The DICOM Node Integration & Routing Service in Angola facilitates the secure and efficient exchange of medical imaging data between healthcare facilities. This workflow outlines the process from an initial inquiry about setting up a DICOM node to the successful execution of data routing. The service ensures compliance with relevant healthcare regulations and promotes interoperability within Angola's medical imaging infrastructure.
| Phase | Stage/Step | Description | Key Activities | Deliverables/Outcomes |
|---|---|---|---|---|
| Phase 1: Inquiry & Consultation | Initial Contact | Prospective clients express interest in DICOM node integration and routing services. | Contacting the service provider, initial discussion of needs. | Understanding of client's existing infrastructure and requirements. |
| Phase 1: Inquiry & Consultation | Needs Assessment Discussion | Detailed understanding of the client's current imaging workflow, existing PACS/RIS systems, and data exchange requirements. | Client interviews, review of current IT infrastructure documentation. | Documented understanding of client's DICOM requirements and objectives. |
| Phase 2: Assessment & Planning | Technical Site Survey | On-site or remote assessment of the client's network infrastructure, hardware, and software capabilities relevant to DICOM integration. | Network assessment, firewall configuration review, server capacity evaluation. | Technical feasibility report, identification of any infrastructure gaps. |
| Phase 2: Assessment & Planning | Solution Design & Proposal | Development of a tailored solution proposal outlining the integration strategy, hardware/software recommendations, routing rules, security measures, and cost estimates. | Designing the DICOM node architecture, defining routing logic, security protocols, and service level agreements (SLAs). | Formal service proposal with technical specifications, implementation plan, and pricing. |
| Phase 3: Integration & Configuration | Procurement & Setup | Acquisition and installation of necessary hardware and software components for the DICOM node. | Purchasing servers, network devices, DICOM software licenses; physical installation. | Ready-to-configure DICOM node infrastructure. |
| Phase 3: Integration & Configuration | DICOM Node Configuration | Configuring the DICOM node to act as a DICOM endpoint (SCU/SCP) and establishing communication with existing PACS/RIS or other DICOM entities. | Setting up DICOM AE titles, port numbers, network addresses, and transfer syntaxes. | Configured DICOM node accessible within the network. |
| Phase 3: Integration & Configuration | Routing Rule Implementation | Defining and implementing specific routing rules based on DICOM tags (e.g., modality, patient study, referring physician) to direct images to their intended destinations. | Programming routing logic within the DICOM routing software, setting up destination AE titles and network paths. | Operational DICOM routing engine. |
| Phase 3: Integration & Configuration | Security Implementation | Configuring security measures such as TLS/SSL encryption, access control lists, and audit logging to ensure data privacy and integrity. | Setting up encryption protocols, defining user authentication and authorization, configuring audit trails. | Securely configured DICOM communication channels. |
| Phase 4: Testing & Validation | Unit Testing | Testing individual components of the DICOM node and routing system to ensure they function as expected. | Testing DICOM C-STORE, C-FIND, and C-MOVE operations; verifying routing rule accuracy for individual scenarios. | Successful completion of individual component tests. |
| Phase 4: Testing & Validation | Integration Testing | Testing the end-to-end workflow, ensuring seamless data flow between the DICOM node and connected systems. | Simulating real-world imaging scenarios, verifying data integrity and completeness upon arrival at destination. | Validated data flow across the integrated DICOM network. |
| Phase 4: Testing & Validation | User Acceptance Testing (UAT) | Client's clinical and IT staff test the system to confirm it meets their operational requirements and expectations. | Performing routine imaging tasks, verifying reporting and accessibility of images. | Client sign-off on system functionality. |
| Phase 5: Deployment & Go-Live | Production Deployment | Transitioning the integrated DICOM node and routing system from the testing environment to the live production environment. | Final configuration deployment, activation of routing rules in production. | Live operational DICOM node and routing service. |
| Phase 5: Deployment & Go-Live | Initial Live Monitoring | Close monitoring of the system immediately after go-live to detect and resolve any unforeseen issues. | Real-time performance tracking, log analysis, rapid issue resolution. | Stable operation in the live environment. |
| Phase 6: Ongoing Support & Monitoring | Performance Monitoring | Continuous monitoring of DICOM node and routing system performance, network latency, and data throughput. | Utilizing monitoring tools, generating performance reports. | Proactive identification of performance bottlenecks. |
| Phase 6: Ongoing Support & Monitoring | Incident Management & Troubleshooting | Responding to and resolving any technical issues, errors, or connectivity problems that arise. | Log analysis, remote troubleshooting, dispatching support personnel if necessary. | Minimized downtime and rapid resolution of incidents. |
| Phase 6: Ongoing Support & Monitoring | System Updates & Maintenance | Applying software updates, security patches, and performing regular system maintenance to ensure optimal performance and security. | Scheduled maintenance windows, application of patches and upgrades. | Up-to-date and secure DICOM infrastructure. |
| Phase 6: Ongoing Support & Monitoring | Configuration Updates & Enhancements | Modifying routing rules or system configurations based on evolving client needs or changes in the healthcare environment. | Revising routing logic, adding new integration points, implementing new features. | Adaptable and scalable DICOM routing solution. |
DICOM Node Integration & Routing Service Workflow in Angola
- Phase 1: Inquiry & Consultation
- Phase 2: Assessment & Planning
- Phase 3: Integration & Configuration
- Phase 4: Testing & Validation
- Phase 5: Deployment & Go-Live
- Phase 6: Ongoing Support & Monitoring
Dicom Node Integration & Routing Service Cost In Angola
Integrating DICOM nodes and establishing routing services in Angola involves a multifaceted cost structure influenced by several key factors. The pricing for such services is not standardized and can vary significantly based on the complexity of the integration, the volume of data to be routed, the required level of security and compliance, and the chosen service provider. These services are crucial for healthcare institutions in Angola looking to modernize their medical imaging workflows, enabling seamless sharing of patient data between different systems and potentially across different facilities.
| Service Component | Estimated Cost Range (Angolan Kwanza - AOA) | Notes |
|---|---|---|
| Initial DICOM Node Integration (Per Node) | 500,000 - 2,500,000 AOA | Varies based on modality type, existing configuration, and vendor. |
| Basic Routing Service Setup (Initial) | 1,000,000 - 5,000,000 AOA | Covers initial configuration of routing rules and workflows. |
| Complex Routing & Workflow Automation | 2,000,000 - 10,000,000+ AOA | For advanced rules, conditional routing, and integration with multiple systems. |
| Security Implementation & Compliance Audit | 750,000 - 3,000,000 AOA | Depending on the level of encryption, access controls, and auditing required. |
| Cloud-Based Routing Service (Monthly Subscription) | 200,000 - 1,500,000+ AOA | Scales with data volume, features, and support level. May include storage costs. |
| On-Premise Software Licensing & Hardware | 3,000,000 - 15,000,000+ AOA | One-time purchase for software and server/storage hardware. Excludes installation. |
| Ongoing Support & Maintenance (Annual) | 15% - 25% of initial project cost (or as monthly/annual fee) | Covers software updates, bug fixes, and technical assistance. |
| Custom Development & API Integrations | Hourly rate: 30,000 - 100,000+ AOA | Depending on developer expertise and complexity of the custom feature. |
Key Pricing Factors for DICOM Node Integration & Routing Services in Angola
- Scope of Integration: The number of DICOM nodes to be integrated (e.g., modalities, PACS, RIS, VNA) and the complexity of each node's configuration directly impact the cost. Integrating legacy systems might also incur additional effort and expense.
- Data Volume & Throughput: The expected daily or monthly volume of DICOM images and associated metadata that needs to be processed and routed. Higher volumes generally translate to higher costs for bandwidth, storage, and processing power.
- Routing Complexity & Logic: The sophistication of the routing rules. Simple routing based on modality or patient ID is less expensive than complex rules involving patient demographics, study type, or custom metadata. Advanced features like load balancing or failover mechanisms will also increase costs.
- Security & Compliance Requirements: Implementing robust security measures (e.g., encryption, access control, audit trails) to protect sensitive patient data. Adherence to any specific local or international healthcare data privacy regulations will add to the cost.
- Service Provider Expertise & Reputation: The experience, reputation, and support capabilities of the DICOM integration and routing service provider. Established providers with a proven track record may command higher prices.
- Infrastructure & Technology: Whether the solution is on-premise, cloud-based, or hybrid. Cloud solutions might have recurring subscription fees, while on-premise solutions involve upfront hardware and software costs.
- Customization & Development: Any specific customization required beyond standard DICOM integration and routing functionalities will incur additional development costs.
- Ongoing Support & Maintenance: The level of ongoing technical support, system monitoring, updates, and maintenance provided by the service provider. This is typically a recurring cost.
- Bandwidth & Network Infrastructure: The availability and cost of reliable internet connectivity and network infrastructure within the healthcare facility and for any external data transfer.
Affordable Dicom Node Integration & Routing Service Options
Integrating a DICOM (Digital Imaging and Communications in Medicine) node into a healthcare IT infrastructure can be a complex and costly endeavor. This includes establishing connections with existing Picture Archiving and Communication Systems (PACS), modalities, and other medical imaging devices. This document outlines affordable DICOM node integration and routing service options, focusing on value bundles and cost-saving strategies to help healthcare organizations achieve their goals without breaking the bank.
| Value Bundle Options | Description | Cost-Saving Strategies |
|---|---|---|
| Basic Connectivity & Routing Package | Covers essential DICOM node setup, basic network connectivity to a limited number of devices, and fundamental routing rules. Ideal for smaller clinics or departments needing to connect a few new devices. | Limited Scope: Focuses on essential functionality, avoiding unnecessary features. Leverage open-source tools: Utilize open-source DICOM toolkits for basic integration tasks where applicable. Phased implementation: Roll out integration in stages to manage upfront costs and learn from early deployments. |
| Standard Integration & Workflow Bundle | Includes enhanced connectivity, more complex routing logic, basic workflow management features, and initial testing and validation. Suitable for medium-sized practices or departments with moderate imaging volume. | Pre-configured templates: Utilize pre-defined routing templates for common scenarios. Cloud-based solutions: Explore cost-effective cloud hosting for DICOM routing services, reducing hardware and maintenance expenses. Standardized protocols: Adhere to widely adopted DICOM standards to minimize custom development. |
| Advanced Integration & Managed Services Bundle | Encompasses comprehensive DICOM node integration, sophisticated routing and workflow automation, integration with RIS/HIS, advanced security features, and ongoing monitoring and support. Designed for larger hospitals or organizations with complex imaging workflows and high data volumes. | Volume discounts: Negotiate pricing based on the number of nodes or anticipated data volume. Managed services: Outsource ongoing management and support to specialized providers, which can be more cost-effective than maintaining in-house expertise. Long-term contracts: Secure better rates by committing to longer service agreements. Automation: Invest in automation for routine tasks to reduce manual effort and associated costs. |
| Custom Integration & Consulting Services | Tailored solutions for unique integration challenges, custom protocol development, or specific workflow requirements. Typically involves a higher upfront investment but addresses specialized needs. | Clear scope definition: Precisely define project requirements to avoid scope creep and unnecessary development. Agile development methodologies: Employ agile approaches to iteratively deliver value and manage costs. Partnership with experienced vendors: Collaborate with vendors who have a proven track record in cost-effective DICOM integration. |
Key Components of DICOM Node Integration & Routing Services
- DICOM Connectivity: Establishing secure and reliable network connections between the new DICOM node and existing systems (PACS, modalities, RIS). This involves configuring network protocols (TCP/IP, DICOM protocols), ensuring compatibility, and troubleshooting connectivity issues.
- DICOM Routing & Workflow Management: Defining rules and logic for how DICOM images and related data are sent, received, and processed. This includes routing studies to appropriate destinations based on modality, physician, study type, or other criteria, as well as managing study status and workflow.
- DICOM Conformance Statement & Validation: Ensuring the new DICOM node adheres to industry standards and the specific requirements of connected systems. This involves understanding and implementing DICOM attributes and ensuring interoperability through testing and validation.
- Data Transformation & Normalization: Potentially transforming or normalizing DICOM data to meet the requirements of different systems, especially when integrating with older or less compliant devices.
- Security & Compliance: Implementing robust security measures to protect sensitive patient data (PHI) in transit and at rest, ensuring compliance with regulations like HIPAA.
- Monitoring & Troubleshooting: Setting up systems to monitor DICOM traffic, identify potential issues, and provide prompt resolution to maintain seamless operations.
- Integration with Existing IT Infrastructure: Ensuring the DICOM node integrates smoothly with the organization's overall IT architecture, including storage, backup, and disaster recovery solutions.
Verified Providers In Angola
In Angola's evolving healthcare landscape, identifying trusted and verified providers is paramount for ensuring quality medical care. Franance Health stands out as a beacon of reliability, offering a robust network of credentialed healthcare professionals and institutions. Their rigorous verification process ensures that all affiliated providers meet stringent standards of expertise, ethical practice, and patient safety. This commitment to excellence makes Franance Health the best choice for individuals seeking dependable and high-quality healthcare services in Angola.
| Provider Type | Verification Criteria | Benefits of Choosing Franance Health |
|---|---|---|
| Hospitals and Clinics | Accreditation status, adherence to international healthcare standards, patient feedback, infrastructure quality, availability of specialized equipment. | Ensures access to state-of-the-art facilities, effective treatment protocols, and a safe healing environment. |
| Specialist Doctors | Medical board certifications, postgraduate degrees, years of practice, peer reviews, ongoing professional development, disciplinary records. | Guarantees access to highly skilled and experienced specialists for complex medical conditions. |
| General Practitioners | Primary medical license, continuing medical education, patient satisfaction ratings, adherence to primary care guidelines. | Provides reliable access to essential primary healthcare services and early disease detection. |
| Diagnostic Laboratories | Accreditation by national and international bodies, quality control measures, accuracy and turnaround times of tests, use of advanced technology. | Ensures accurate and timely diagnostic results, crucial for effective treatment planning. |
| Pharmacies | Pharmacy licenses, inventory control, proper storage of medications, availability of essential drugs, qualified pharmacists. | Guarantees access to genuine and safely stored medications. |
Why Franance Health is the Superior Choice for Verified Providers in Angola:
- Rigorous Credentialing Process: Franance Health employs a multi-stage verification system that scrutinizes the qualifications, licenses, and professional history of every healthcare provider.
- Commitment to Patient Safety: Patient well-being is at the core of Franance Health's operations, with a strong emphasis on providers who adhere to the highest safety protocols.
- Access to Expertise: Their network comprises a diverse range of specialists and general practitioners, ensuring access to a wide spectrum of medical expertise.
- Ethical Practice Standards: Franance Health partners with professionals who demonstrate unwavering commitment to ethical conduct and patient confidentiality.
- Streamlined Access to Care: By simplifying the process of finding verified providers, Franance Health reduces the stress and uncertainty associated with healthcare seeking.
- Continuous Quality Monitoring: Beyond initial verification, Franance Health engages in ongoing assessments to maintain the quality and reliability of its provider network.
Scope Of Work For Dicom Node Integration & Routing Service
This document outlines the Scope of Work (SOW) for integrating a DICOM (Digital Imaging and Communications in Medicine) node and establishing a routing service. The objective is to enable seamless exchange of medical imaging data between various PACS (Picture Archiving and Communication Systems), modalities, and other DICOM-compliant applications within the healthcare network. This includes the technical deliverables, standard specifications, and implementation phases.
| Phase | Description | Key Activities | Technical Deliverables | Standard Specifications & Protocols |
|---|---|---|---|---|
| Phase 1: Planning & Design | Define the architecture, requirements, and integration strategy. | Requirement gathering, DICOM network analysis, workflow mapping, security policy definition, hardware/software selection. | Architecture diagram, data flow diagrams, security plan, integration plan, detailed design document. | DICOM Conformance Statements, HL7 v2 (if applicable for worklist/orders), IHE profiles (e.g., SWF, PIX/PDQ). |
| Phase 2: DICOM Node Implementation | Set up and configure the DICOM node. | Installation of DICOM server software, network configuration, AE title/port setup, storage configuration, user/role management. | Configured DICOM node software, AE Title registry, initial storage archive setup, access control lists. | DICOM Part 3 (Information Object Definitions), Part 4 (Service Class Specifications - SC), Part 8 (Network Communication), Part 10 (Media Storage and File Format). |
| Phase 3: Routing Service Development & Configuration | Develop and configure the DICOM routing logic. | Rule-based routing engine development, modality/PACS specific routing logic, query routing, workflow integration. | Configured routing rules, routing engine software, integration with existing RIS/HIS (if applicable). | DICOM Part 4 (Service Class Specifications - QC, Q/R), DICOM Part 3 (Attribute Tags for routing). |
| Phase 4: Integration & Testing | Connect the DICOM node and routing service with existing systems and perform thorough testing. | Establish network connectivity, DICOM association testing, C-STORE, C-FIND, C-MOVE testing, HL7 integration testing, end-to-end workflow testing, performance testing, security testing. | Test reports, integration logs, validated DICOM workflows, documented test cases. | DICOM Part 7 (Message Exchange), Part 11 (Media Application Profiles), relevant IHE profiles for testing scenarios. |
| Phase 5: Deployment & Go-Live | Deploy the integrated solution into the production environment. | Production environment setup, data migration (if applicable), user training, go-live support. | Deployed DICOM node and routing service, user training materials, operational runbooks. | N/A (focus on operational deployment). |
| Phase 6: Post-Implementation Support & Maintenance | Provide ongoing support and maintenance for the integrated solution. | Monitoring, troubleshooting, software updates, performance tuning, ongoing user support. | Service Level Agreement (SLA), support tickets resolution, performance reports, system health dashboards. | N/A (focus on ongoing operations). |
Key Objectives
- Establish a robust and reliable DICOM node for data reception, storage, and forwarding.
- Implement a flexible and intelligent DICOM routing service to direct images to their intended destinations.
- Ensure compliance with relevant DICOM standards and healthcare regulations.
- Provide secure and authenticated access to DICOM services.
- Minimize downtime and ensure high availability of the DICOM integration.
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. It defines the expected response times for critical operations and the guaranteed uptime of the service.
| Metric | Target | SLA Guarantee |
|---|---|---|
| Overall Service Uptime | 99.9% | The Service shall be available 99.9% of the time, measured monthly, excluding Scheduled Maintenance. |
| Response Time for DICOM C-STORE Requests | < 500 ms (95th percentile) | 95% of DICOM C-STORE requests shall be processed within 500 milliseconds. |
| Response Time for DICOM C-FIND Requests | < 1000 ms (95th percentile) | 95% of DICOM C-FIND requests shall be processed within 1000 milliseconds. |
| Response Time for DICOM C-MOVE Requests | < 1500 ms (95th percentile) | 95% of DICOM C-MOVE requests shall be processed within 1500 milliseconds. |
| Response Time for Internal Routing Logic | < 200 ms (95th percentile) | 95% of internal routing decisions shall be completed within 200 milliseconds. |
| Scheduled Maintenance Window | Maximum 4 hours per month | Scheduled Maintenance will not exceed 4 hours per calendar month. Advance notice of at least 48 hours will be provided. |
Key Definitions
- Service: The DICOM Node Integration & Routing Service, responsible for facilitating the secure and efficient transfer of DICOM objects between integrated DICOM nodes.
- Uptime: The percentage of time the Service is operational and accessible to perform its intended functions.
- Downtime: The percentage of time the Service is not operational or accessible.
- Response Time: The duration from when a request is initiated by a client to when the Service begins processing that request or returns a response.
- Critical Operations: Key functions of the Service, including but not limited to: DICOM C-STORE requests, DICOM C-FIND requests, DICOM C-MOVE requests, and internal routing logic.
- Scheduled Maintenance: Planned periods during which the Service may be temporarily unavailable for updates, upgrades, or preventative maintenance. This will be communicated in advance.
In-Depth Guidance
Frequently Asked Questions
Phase 02: Execution
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