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DICOM Node Integration & Routing Service in Niger
Engineering Excellence & Technical Support
DICOM Node Integration & Routing Service High-standard technical execution following OEM protocols and local regulatory frameworks.
Seamless DICOM Node Integration in Niger
Effortlessly connect and onboard new DICOM modalities and PACS systems across Niger, ensuring smooth data flow and interoperability with our robust integration service.
Intelligent DICOM Routing for Niger's Healthcare
Optimize diagnostic imaging workflows with intelligent DICOM routing capabilities. Our service ensures timely and accurate delivery of studies to the right specialists, anywhere in Niger.
DICOM Compliance & Security for Niger
Maintain stringent DICOM compliance and data security standards for all integrated nodes. We safeguard patient data and ensure regulatory adherence for healthcare providers in Niger.
What Is Dicom Node Integration & Routing Service In Niger?
DICOM (Digital Imaging and Communications in Medicine) Node Integration & Routing Service in Niger refers to the specialized implementation and operationalization of a DICOM service within the healthcare infrastructure of Niger. This service facilitates the secure and efficient exchange, management, and transmission of medical imaging data (such as X-rays, CT scans, MRIs) and associated patient information between various DICOM-compliant devices and systems within and across healthcare facilities in the country. It ensures interoperability and streamlines workflows by enabling nodes (imaging modalities, PACS, RIS, workstations) to communicate effectively, adhering to DICOM standards and potentially incorporating local regulatory or network requirements.
| Who Needs the Service | Typical Use Cases | |||
|---|---|---|---|---|
| Hospitals and Clinics in Niger: All healthcare facilities employing or planning to employ digital imaging modalities and PACS/RIS systems. | Inter-facility Image Sharing: Facilitating the transfer of patient imaging studies from a primary healthcare facility to a larger hospital or specialized center for advanced diagnostics or treatment planning. | Remote Diagnostics and Consultation: Enabling radiologists and specialists located elsewhere in Niger or internationally to remotely access and interpret medical images for patients in Niger. | Centralized Image Archiving: Supporting the consolidation of DICOM archives for multiple facilities to a central PACS for easier management and retrieval. | Workflow Optimization: Streamlining the process of image acquisition, storage, retrieval, and reporting by automating data flow between modalities, PACS, and RIS. |
| Radiology Departments: Essential for managing the influx of DICOM images from various modalities and directing them to the PACS or relevant workstations. | Imaging Modality Manufacturers/Vendors: To ensure their equipment can seamlessly integrate with existing healthcare IT infrastructures in Niger. | PACS/RIS Vendors and Integrators: For deploying and configuring their systems to communicate effectively within the Nigerien healthcare network. | Government Health Agencies and Ministries: For oversight, data aggregation, and potential implementation of national health information systems. | Tertiary Care Centers and Referral Hospitals: To receive and process imaging studies from referring clinics and hospitals. |
Key Components and Functions of DICOM Node Integration & Routing Service:
- DICOM Conformance Statement (DCS) Management: Ensuring that all participating nodes (imaging devices, PACS, workstations) have a valid DCS that accurately describes their DICOM capabilities, aiding in compatibility verification.
- Network Configuration and Management: Establishing and maintaining the underlying network infrastructure (TCP/IP, VPNs, etc.) required for DICOM communication, including IP address management, port forwarding, and firewall rules.
- DICOM Association Establishment and Management: Facilitating the negotiation of DICOM associations between Application Entities (AEs) for secure and standardized data exchange.
- DICOM Service Class Provider (SCP) and Service Class User (SCU) Configuration: Configuring devices to act as either SCPs (servers that receive DICOM data) or SCUs (clients that send DICOM data), or both, for various DICOM services (e.g., C-STORE, C-FIND, C-MOVE).
- DICOM Routing Rules and Policies: Implementing logic to direct DICOM messages (e.g., images, worklists) to the appropriate destination based on predefined criteria such as AE Title, IP address, modality type, or patient demographics.
- Data Archiving and Retrieval (PACS Integration): Interfacing with Picture Archiving and Communication Systems (PACS) to enable the storage, retrieval, and forwarding of DICOM images.
- Worklist Management (RIS Integration): Connecting with Radiology Information Systems (RIS) to manage patient worklists, ensuring that imaging procedures are accurately scheduled and data is associated with the correct patient.
- Security Implementation: Applying security measures such as TLS/SSL encryption for DICOM communication, access control lists, and authentication mechanisms to protect sensitive patient data.
- Audit Trail and Logging: Maintaining detailed logs of all DICOM transactions for troubleshooting, security monitoring, and regulatory compliance.
- Interoperability and Standardization: Ensuring adherence to DICOM standards (e.g., Part 10 for file format) and potentially incorporating specific Nigerian healthcare informatics standards or protocols.
- Remote Access and Tele-radiology Support: Enabling secure remote access to medical images and DICOM services for specialists, facilitating tele-radiology consultations and expert opinions, which is particularly crucial in remote or underserved areas.
Who Needs Dicom Node Integration & Routing Service In Niger?
In Niger, the integration and routing of medical imaging data using a DICOM (Digital Imaging and Communications in Medicine) Node Integration & Routing Service is crucial for modernizing healthcare infrastructure and improving diagnostic capabilities, especially in underserved regions. This service enables seamless sharing of medical images and associated patient data between different healthcare facilities, imaging modalities, and Picture Archiving and Communication Systems (PACS). Its implementation is vital for enhancing patient care through faster access to imaging studies, facilitating remote consultations, and supporting advanced medical analysis.
| Customer Segment | Key Benefits & Use Cases | Departmental Focus |
|---|---|---|
| Urban Hospitals (e.g., Hôpital National de Niamey) | Centralized PACS, inter-departmental image sharing, tele-radiology, disaster preparedness. | Radiology, Cardiology, Neurology, Oncology, Emergency Department. |
| Rural Health Centers | Remote diagnosis via tele-radiology, image sharing with referral centers, basic diagnostic support. | General Practice, Laboratory, limited Radiology (if equipment exists). |
| Private Diagnostic Clinics | Efficient image distribution to referring physicians, compliance with data sharing standards, enhanced patient service. | Radiology, Cardiology, Ophthalmology, Dermatology. |
| Ministry of Public Health | National imaging data repository for public health surveillance, epidemic tracking, resource management, quality control. | Public Health Departments, Health Information Management. |
| Medical Training Institutions | Access to anonymized datasets for teaching, research collaboration, development of local expertise in medical imaging. | Radiology Training Programs, Medical Schools, Research Departments. |
| International Health NGOs/Projects | Facilitating image sharing for medical missions, capacity building initiatives, and specialized treatment programs. | Clinical Departments involved in projects, Project Management. |
Target Customers & Departments in Niger
- {"title":"Hospitals and Healthcare Centers","description":"Both public and private hospitals, from large central hospitals to smaller district facilities, will benefit immensely. This includes ensuring efficient workflows and reliable data exchange, critical for timely diagnoses and treatment planning."}
- {"title":"Radiology Departments","description":"The core users, radiology departments will leverage the service for streamlined image acquisition, storage, retrieval, and distribution. This also facilitates the integration of new imaging equipment and existing PACS."}
- {"title":"Specialized Clinics","description":"Clinics focusing on specific areas like cardiology, neurology, or oncology can benefit from specialized image sharing for collaborative diagnosis and treatment. This allows for better management of complex cases."}
- {"title":"Diagnostic Imaging Centers","description":"Independent centers offering various imaging modalities (X-ray, CT, MRI, Ultrasound) will use this service to efficiently manage and share images with referring physicians and hospitals, improving turnaround times."}
- {"title":"Public Health Organizations & Ministries of Health","description":"Government bodies responsible for national health strategies can utilize the service for public health surveillance, epidemiological studies, and managing imaging resources across the country. This supports better resource allocation and health policy development."}
- {"title":"Research Institutions & Universities","description":"Academic and research bodies can use the service for accessing anonymized imaging data for studies, improving medical education, and advancing diagnostic techniques. This fosters innovation in medical imaging."}
- {"title":"Telemedicine Providers","description":"Organizations offering remote diagnostic services will find this service indispensable for securely transmitting and receiving DICOM images, enabling remote interpretation and consultations by specialists, especially for remote or rural populations."}
- {"title":"Medical Equipment Vendors & Service Providers","description":"These entities can integrate their imaging equipment and PACS solutions with the routing service, ensuring compatibility and ease of deployment for their clients. This simplifies integration and support for new technology."}
Dicom Node Integration & Routing Service Process In Niger
The DICOM Node Integration & Routing Service (DNIRS) process in Niger facilitates the secure and efficient transfer and management of medical imaging data (DICOM) between healthcare facilities. This workflow outlines the journey from an initial inquiry to the successful execution of a DICOM node integration and routing solution. The service is designed to address the unique challenges of healthcare IT infrastructure in Niger, ensuring interoperability and improved patient care through standardized data exchange.
| Stage | Description | Key Activities | Responsible Parties | Deliverables/Outcomes |
|---|---|---|---|---|
| Inquiry & Initial Consultation | The process begins when a healthcare facility or stakeholder in Niger expresses interest in establishing or improving their DICOM data management capabilities. | Initial contact, understanding basic needs, explaining the DNIRS. | Prospective Client, DNIRS Service Provider. | Confirmation of interest, preliminary understanding of client's context. |
| Needs Assessment & Requirements Gathering | A thorough analysis of the client's current IT infrastructure, existing DICOM systems (if any), data volume, security requirements, and specific routing needs. | On-site or remote assessment, interviews with IT staff and clinicians, documentation review. | DNIRS Technical Team, Client IT Staff, Clinical Stakeholders. | Detailed requirements document, gap analysis report, understanding of technical and operational constraints. |
| Solution Design & Proposal | Based on the gathered requirements, a tailored DICOM integration and routing solution is designed. This includes defining the node architecture, routing rules, security protocols, and any necessary software/hardware components. | Developing architectural diagrams, specifying integration points, defining routing logic, estimating costs. | DNIRS Solution Architects, Technical Leads, Project Managers. | Comprehensive solution proposal, technical specifications, cost breakdown, project timeline. |
| Agreement & Onboarding | Formalizing the partnership and initiating the onboarding process once the proposal is accepted and an agreement is reached. | Contract signing, financial arrangements, project kickoff meeting, access provisioning. | DNIRS Management, Client Management, Legal & Finance Departments. | Signed contract, project initiation, appointed project teams from both sides. |
| Technical Implementation & Configuration | The core of the service, involving the setup and configuration of DICOM nodes, PACS (Picture Archiving and Communication System) integration, routing engines, and necessary network infrastructure. | Server installation, software deployment, network configuration, DICOM service setup, security hardening. | DNIRS Technical Engineers, Network Administrators, Client IT Support. | Configured DICOM nodes, established network connectivity, functional routing engine. |
| Testing & Validation | Rigorous testing to ensure the integrated system functions as designed, data is routed correctly, and security policies are enforced. This involves simulating various DICOM workflows. | Unit testing, integration testing, user acceptance testing (UAT), security penetration testing, performance testing. | DNIRS QA Team, Client IT Staff, Clinical Users. | Test reports, identified and resolved issues, verified data flow and security. |
| Deployment & Go-Live | The official launch of the integrated DICOM node and routing service into the live operational environment. | Final system checks, migration of live data (if applicable), switching to the new system, initial live monitoring. | DNIRS Deployment Team, Client IT Operations. | Operational DICOM integration and routing service, successful transition. |
| Training & Support | Providing comprehensive training to the client's IT staff and relevant medical personnel on operating and managing the new DICOM infrastructure. | Training sessions, creation of user manuals, establishment of support channels. | DNIRS Training Specialists, Client IT Staff, Clinicians. | Trained personnel, accessible support resources, user documentation. |
| Ongoing Monitoring & Maintenance | Continuous monitoring of system performance, security, and data flow to proactively identify and address any issues. | Performance monitoring, log analysis, regular security audits, system updates and patching. | DNIRS Operations Team, Client IT Support. | Stable and secure DICOM infrastructure, performance reports, proactive issue resolution. |
| Service Review & Optimization | Periodic reviews of the service's effectiveness, gathering feedback, and identifying opportunities for further optimization and enhancement. | Performance analysis, feedback collection, feature enhancement discussions, strategic planning. | DNIRS Account Managers, Client Management, DNIRS Technical Leads. | Service improvement plans, enhanced efficiency, sustained value delivery. |
DICOM Node Integration & Routing Service Process Workflow
- Inquiry & Initial Consultation
- Needs Assessment & Requirements Gathering
- Solution Design & Proposal
- Agreement & Onboarding
- Technical Implementation & Configuration
- Testing & Validation
- Deployment & Go-Live
- Training & Support
- Ongoing Monitoring & Maintenance
- Service Review & Optimization
Dicom Node Integration & Routing Service Cost In Niger
Integrating DICOM (Digital Imaging and Communications in Medicine) nodes and establishing a robust routing service is a critical undertaking for healthcare institutions in Niger looking to streamline medical imaging workflows. The cost of such services is influenced by several factors, leading to a range of pricing. It's important to note that definitive, universally published price lists for these niche IT services in Niger are scarce. Therefore, the figures presented are estimates based on common industry practices and the specific local economic context.
| Service Component | Estimated Cost Range (XOF - Central African CFA Franc) | Notes |
|---|---|---|
| Initial Setup & Integration (Small to Medium Scale) | 1,500,000 - 7,000,000 XOF | Covers basic integration of 2-5 DICOM nodes, standard routing rules, and initial configuration. |
| Initial Setup & Integration (Large Scale / Complex) | 7,000,000 - 25,000,000+ XOF | Involves multiple sites, advanced workflow automation, integration with legacy systems, or high-volume data transfer. |
| DICOM Server/Routing Software Licenses (Annual/Perpetual) | 500,000 - 5,000,000+ XOF | Highly variable. Can be a one-time purchase or recurring subscription. Depends on features and user count. |
| Hardware (Servers, Storage, Network) | 2,000,000 - 15,000,000+ XOF | Dependent on performance needs, data volume, and redundancy requirements. Can be a significant one-time capital expenditure. |
| Consulting & Implementation (Per Day/Hour) | 75,000 - 250,000 XOF | Rate for experienced DICOM integration specialists. Total cost depends on project duration. |
| Custom Development & Scripting | 500,000 - 5,000,000+ XOF | For unique workflow needs or integrations not covered by standard software features. |
| Annual Support & Maintenance | 10-20% of Initial Software/Service Cost | Covers software updates, bug fixes, and technical support. |
| Training (Per Session/Day) | 100,000 - 400,000 XOF | For IT staff and end-users. |
Key Pricing Factors for DICOM Node Integration & Routing Services in Niger
- Complexity of Integration: The number of DICOM nodes to be integrated, their existing infrastructure (PACS, modalities, VNA), and the required level of interoperability (e.g., basic query/retrieve vs. advanced workflow orchestration) significantly impact costs.
- Software Licensing: DICOM servers, routing engines, and any necessary middleware often come with licensing fees, which can be perpetual or subscription-based.
- Hardware Requirements: If new servers, network infrastructure, or storage solutions are needed to support the DICOM environment, these hardware costs will be a major component.
- Customization & Development: Unique requirements or the need for custom scripts or integrations to bridge disparate systems will increase development time and thus cost.
- Consulting & Implementation Services: The expertise of IT professionals for planning, installation, configuration, testing, and go-live support is a substantial part of the investment.
- Training: Training hospital IT staff and potentially radiologists/technologists on the new system is crucial and often billed separately.
- Ongoing Support & Maintenance: Post-implementation support, software updates, and technical assistance are typically provided through annual maintenance contracts or support subscriptions.
- Vendor Type: Costs can vary depending on whether you engage a large international IT vendor with a local presence, a specialized regional DICOM integrator, or a local IT company with developing DICOM expertise.
- Project Scale & Urgency: Larger, more complex projects or those with tight deadlines may incur higher overall costs due to resource allocation and expedited timelines.
- Local Economic Conditions: Inflation, exchange rates, and the general cost of doing business in Niger will influence the final pricing, especially for imported software licenses and hardware.
Affordable Dicom Node Integration & Routing Service Options
Integrating DICOM (Digital Imaging and Communications in Medicine) nodes and implementing robust routing services are critical for modern healthcare IT infrastructure. This ensures seamless sharing of medical images and related data between various imaging modalities, PACS (Picture Archiving and Communication Systems), and other clinical systems. However, the cost associated with developing and maintaining these integrations can be substantial. This document explores affordable options, focusing on value bundles and cost-saving strategies to help healthcare organizations manage their DICOM node integration and routing service expenses.
| Strategy/Bundle Type | Description | Value Proposition | Cost-Saving Potential |
|---|---|---|---|
| Managed DICOM Routing Services (SaaS) | Cloud-based platforms that handle the complexities of DICOM routing. Vendors manage the infrastructure, software, and updates. | Reduces on-premise hardware/software costs, provides scalability, enhanced security, and expert management. Focus shifts from IT maintenance to clinical workflows. | Significant reduction in CAPEX (Capital Expenditure) and OPEX (Operational Expenditure) related to infrastructure. Predictable subscription pricing. Eliminates need for in-house DICOM expertise. |
| Open-Source DICOM Toolkits & Libraries | Utilizing free and open-source software (e.g., DCMTK, pydicom) for building custom integration solutions. Requires in-house development expertise. | Eliminates software licensing fees. Offers maximum flexibility and customization. Active community support. | Zero direct software cost. However, requires significant investment in skilled developers and prolonged development cycles. |
| Value Bundles: Integration & Workflow Optimization | Packages that combine DICOM integration services with workflow analysis and optimization tools. Often offered by PACS vendors or specialized integration partners. | Addresses not just technical connectivity but also the efficiency of data flow, leading to improved radiologist productivity and reduced turnaround times. | Potential for indirect cost savings through improved operational efficiency and reduced errors. Can simplify procurement by offering a holistic solution. |
| Vendor-Specific Integration Suites | Software solutions provided by imaging equipment manufacturers or PACS vendors to facilitate integration with their own products and potentially other systems. | Often easier to integrate within the vendor's ecosystem. May offer pre-configured adapters for common scenarios. | Can be cost-effective if your infrastructure is predominantly from a single vendor. However, can lead to vendor lock-in and higher costs for multi-vendor environments. |
| Phased Integration & Prioritization | Implementing DICOM integration in stages, prioritizing critical workflows and departments first. Focusing on essential routing rules initially. | Manages budget constraints by spreading costs over time. Allows for iterative learning and refinement of integration strategies. | Reduces upfront investment. Allows for ROI (Return on Investment) to be realized incrementally. Minimizes disruption. |
| Leveraging Standardized Protocols & APIs | Utilizing established DICOM standards and available APIs (Application Programming Interfaces) to reduce custom development effort. Exploring HL7 FHIR integration where applicable. | Reduces the complexity and cost of building custom interfaces. Promotes interoperability with a wider range of systems. | Minimizes development time and resources. Leads to more maintainable and future-proof integrations. |
| Consulting & Project-Based Integration | Engaging specialized DICOM integration consultants for specific projects or for designing the overall integration architecture. Rather than ongoing managed services, focus on project completion. | Provides access to expert knowledge without the overhead of full-time staff. Ensures best practices are followed and efficient solutions are implemented. | Can be more cost-effective than hiring internal experts for limited needs. Transparent project costs. |
Understanding DICOM Node Integration & Routing Services
- DICOM Node Integration: The process of connecting different DICOM-compliant devices and software applications, enabling them to communicate and exchange medical imaging data.
- DICOM Routing: The functionality that directs DICOM messages (e.g., images, studies, worklists) to their intended destinations within the healthcare network based on pre-defined rules and criteria.
- Key Components: Integration typically involves understanding DICOM networking protocols (TCP/IP, AE Titles, Port Numbers), data encoding (DICOM part 10), and often requires specific middleware or software solutions.
- Common Use Cases: Connecting new imaging equipment, migrating PACS systems, establishing vendor-neutral archives (VNAs), and facilitating inter-institutional data sharing.
Verified Providers In Niger
In Niger, ensuring access to reliable healthcare is paramount. Verified providers, particularly those with credentials from respected organizations like Franance Health, offer a crucial layer of trust and assurance for individuals seeking quality medical services. Franance Health's rigorous vetting process and commitment to upholding high standards mean that providers who are credentialed by them have demonstrated a strong commitment to patient care, ethical practices, and clinical excellence. This makes them the best choice for a number of reasons: their adherence to established medical protocols, their investment in ongoing professional development, and their dedication to patient safety and satisfaction. Choosing a Franance Health-credentialed provider in Niger means opting for a healthcare experience that is both dependable and of superior quality.
| Credential Aspect | Benefit for Patients | Franance Health's Role |
|---|---|---|
| Clinical Competency | Ensures effective diagnosis and treatment. | Franance Health assesses educational background, experience, and ongoing training. |
| Ethical Practice | Guarantees respectful and honest patient interactions. | Franance Health verifies adherence to a strict code of conduct. |
| Patient Safety | Minimizes risks and ensures a secure healthcare environment. | Franance Health may review facility standards and safety protocols. |
| Professional Development | Keeps providers updated on the latest medical advancements. | Franance Health often requires evidence of continuous learning. |
| Reputation and Trust | Builds confidence in the quality of care received. | Franance Health's accreditation signifies a mark of distinction and reliability. |
Why Franance Health Credentials Represent the Best Choice for Verified Providers in Niger:
- Rigorous vetting process ensures providers meet high standards.
- Commitment to patient care and ethical practices is validated.
- Demonstrated clinical excellence and adherence to medical protocols.
- Providers invest in ongoing professional development.
- Focus on patient safety and satisfaction is a key credential component.
- Offers a layer of trust and assurance in the healthcare landscape.
Scope Of Work For Dicom Node Integration & Routing Service
This document outlines the Scope of Work (SOW) for the integration and routing of DICOM (Digital Imaging and Communications in Medicine) nodes. The objective is to establish a robust and scalable service that enables seamless exchange of medical imaging data between various DICOM-compliant systems. This includes defining the technical deliverables, outlining the standard specifications to be adhered to, and detailing the implementation phases. The service will ensure secure and efficient routing of DICOM objects based on predefined rules and policies, supporting modern healthcare interoperability requirements.
| Standard/Specification | Description | Relevance to SOW | Key Requirements/Considerations |
|---|---|---|---|
| DICOM Part 3: Information Object Definitions (IODs) | Defines the structure and content of DICOM information objects (e.g., CT Image, MR Image, SR Document). | Ensures understanding and correct handling of various medical imaging modalities and related data. | Support for common IODs; flexibility to add support for custom IODs if required. |
| DICOM Part 4: Service Class Specifications | Defines the services that DICOM entities can offer (e.g., C-STORE, C-FIND, C-MOVE, C-GET). | Essential for implementing the communication protocols between the routing service and DICOM nodes. | Implementation of C-STORE for receiving objects and C-MOVE/C-GET for retrieving objects. |
| DICOM Part 7: Message Exchange | Specifies the structure and encoding of DICOM messages. | Critical for ensuring correct parsing and construction of DICOM network messages. | Adherence to Abstract Syntax and Transfer Syntaxes. |
| DICOM Part 8: Network Communication | Defines the network protocols (TCP/IP) and application context for DICOM communication. | Forms the basis for establishing DICOM network connections. | Support for standard TCP ports for DICOM (e.g., 104). |
| DICOM Part 10: Media Storage | Defines the format for storing DICOM data on media, but the principles are often applied to file-based exchanges. | Relevant for any file-based ingest or egress of DICOM data. | Understanding of file structure, metadata, and dataset organization. |
| DICOM Part 14: Grayscale Standard Display Function | Defines the recommended display characteristics for grayscale images. | Important if image display characteristics are to be preserved or modified during routing. | Consideration for window level, window width, and presentation LUTs. |
| DICOM Part 15: Security | Provides guidance on security profiles and mechanisms for DICOM, including encryption and digital signatures. | Crucial for secure data transmission and integrity. | Support for TLS/SSL for secure communication; potential for encryption/signing of DICOM objects. |
| DICOM Part 16: Content Mapping Resource | Defines various resources used in DICOM, including Transfer Syntaxes. | Ensures interoperability through the use of common encoding schemes. | Support for common Transfer Syntaxes (e.g., Implicit VR Little Endian, Explicit VR Little Endian, JPEG Lossy/Lossless). |
| IHE (Integrating the Healthcare Enterprise) Profiles (e.g., SWF, PWP, XDS) | Implementations of DICOM and HL7 standards to address specific clinical workflows. | Ensures compatibility with common healthcare integration frameworks. | Alignment with relevant IHE profiles where applicable; adherence to actor specifications. |
| HL7 (Health Level Seven) Standards (Optional, but often complementary) | Standards for the exchange, integration, sharing, and retrieval of electronic health information. | May be required if routing decisions are influenced by patient demographics or other clinical context provided via HL7 messages. | Interfacing with HL7 interfaces (e.g., ADT messages) for contextual information. |
Technical Deliverables
- DICOM Node Integration Module: Software component responsible for connecting to and interacting with individual DICOM nodes (PACS, Modality Workstations, etc.).
- DICOM Routing Engine: Core service responsible for applying routing rules, policies, and directing DICOM objects to their intended destinations.
- Configuration Management Interface: User-friendly interface (web-based or CLI) for defining and managing DICOM node connections, AE Titles, IP addresses, ports, and routing rules.
- Data Transformation and Validation Service (Optional): Module to handle necessary DICOM data transformations (e.g., anonymization, compression) and validation against DICOM standards.
- Monitoring and Logging System: Comprehensive system for tracking DICOM object flow, error reporting, system performance, and audit trails.
- API for external integration (Optional): RESTful API to allow other systems to query routing status, submit DICOM objects for routing, or manage configurations programmatically.
- Deployment Package: All necessary scripts, configurations, and instructions for deploying the DICOM Node Integration & Routing Service in various environments (e.g., on-premise, cloud).
- User and Administrator Documentation: Comprehensive guides for end-users and system administrators covering installation, configuration, operation, and troubleshooting.
- Test Cases and Validation Reports: A set of defined test cases executed during development and acceptance testing, along with corresponding reports.
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'). It defines the response times for critical operations and the uptime guarantee to ensure reliable and efficient medical image data management. The Service is designed to facilitate seamless integration of DICOM nodes and robust routing of medical imaging information within the healthcare ecosystem.
| Service Component/Operation | Response Time Guarantee (95th Percentile) | Uptime Guarantee |
|---|---|---|
| DICOM C-STORE (Image Ingestion) | 500 milliseconds | 99.9% (excluding scheduled maintenance) |
| DICOM C-FIND (Query) | 1 second | 99.9% (excluding scheduled maintenance) |
| DICOM C-MOVE (Retrieve Initiation) | 750 milliseconds | 99.9% (excluding scheduled maintenance) |
| Routing Rule Evaluation & Execution | 200 milliseconds | 99.9% (excluding scheduled maintenance) |
| Service Availability (API endpoints, management interface) | N/A (covered by overall uptime) | 99.9% (excluding scheduled maintenance) |
Key Performance Indicators (KPIs)
- Response Time: The maximum acceptable time for the Service to acknowledge and initiate processing for a critical DICOM operation.
- Uptime: The percentage of time the Service is available and operational for use.
- Downtime: Any period during which the Service is unavailable and not accessible to users or integrated systems.
- Scheduled Maintenance: Planned periods of downtime for updates, upgrades, or system maintenance.
In-Depth Guidance
Frequently Asked Questions
Phase 02: Execution
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