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Radiology Room Design & Layout Planning Service in Eritrea
Engineering Excellence & Technical Support
Radiology Room Design & Layout Planning Service High-standard technical execution following OEM protocols and local regulatory frameworks.
Optimized Workflow Efficiency
Our expert planning for radiology rooms in Eritrea focuses on creating logical patient and staff flow, minimizing travel distances, and strategically placing equipment to streamline imaging procedures, leading to faster turnaround times and improved patient throughput.
Radiation Safety & Compliance
We ensure all radiology room designs adhere to stringent Eritrean radiation safety regulations, incorporating appropriate shielding, ventilation, and dose monitoring systems to protect patients and staff while maintaining optimal imaging quality.
Future-Proof Scalability & Integration
Our layouts are designed with future growth and technological advancements in mind, allowing for easy integration of new imaging modalities and PACS/RIS systems, ensuring your radiology department in Eritrea remains state-of-the-art and adaptable to evolving healthcare needs.
What Is Radiology Room Design & Layout Planning Service In Eritrea?
Radiology Room Design & Layout Planning Service in Eritrea refers to the specialized process of conceptualizing, developing, and optimizing the physical infrastructure of radiology suites within healthcare facilities. This service encompasses the strategic arrangement of imaging equipment, patient examination areas, control rooms, support spaces (e.g., changing rooms, waiting areas, technical rooms), and workflow pathways to ensure optimal operational efficiency, patient safety, radiation protection, and diagnostic image quality. It involves a multidisciplinary approach, integrating architectural principles, medical imaging technology requirements, regulatory compliance, and clinical workflow analysis.
| Who Needs This Service? | Typical Use Cases in Eritrea | ||
|---|---|---|---|
| Hospitals and Medical Centers: Both public and private institutions requiring new or renovated radiology departments. | Establishing new diagnostic imaging facilities in burgeoning healthcare sectors. | Upgrading existing radiology suites to accommodate advanced imaging technologies. | Expanding radiology services to meet increasing patient demand. |
| Clinics and Diagnostic Centers: Facilities aiming to incorporate or enhance their diagnostic imaging capabilities. | Developing specialized imaging centers (e.g., cardiology imaging, orthopedic imaging). | Integrating new imaging modalities into existing outpatient clinics. | |
| Government Health Ministries and Agencies: Responsible for healthcare infrastructure development and regulation. | Planning and overseeing the construction of new public hospitals or health centers with radiology units. | Developing national standards and guidelines for radiology department design and safety. | |
| Architectural and Engineering Firms: Collaborating on healthcare projects requiring specialized radiology design expertise. | Engaging expert consultants for the radiology components of larger hospital construction projects. | Ensuring compliance with specific imaging modality requirements during the design phase. | |
| Radiology Equipment Vendors: Requiring site assessment and layout planning to ensure successful installation and operation of their equipment. | Providing integrated design solutions that include facility layout alongside equipment procurement. |
Key Components of Radiology Room Design & Layout Planning Service
- Site Assessment and Needs Analysis: Evaluating existing facility constraints, understanding the scope of radiology services offered, and determining equipment requirements (modalities, size, weight, power, shielding).
- Workflow Optimization: Designing patient flow from registration to examination and discharge, minimizing patient and staff movement, and ensuring efficient turnaround times.
- Equipment Placement and Integration: Strategically positioning imaging modalities (e.g., X-ray, CT, MRI, Ultrasound, Mammography) to maximize accessibility, facilitate maintenance, and adhere to manufacturer specifications and safety guidelines.
- Radiation Shielding Design: Calculating and implementing appropriate lead shielding for walls, doors, windows, and other structural elements to protect staff and patients from ionizing radiation, in compliance with national and international safety standards.
- Spatial Planning and Ergonomics: Designing adequate space for equipment operation, patient positioning, staff ergonomics, and safe maneuvering of mobile equipment.
- Utilities and Infrastructure Planning: Specifying power, data connectivity, ventilation, HVAC, and other essential infrastructure requirements for imaging equipment and associated systems.
- Patient Comfort and Privacy: Incorporating features that enhance patient experience, such as lighting control, acoustic considerations, and visual privacy.
- Regulatory Compliance: Ensuring adherence to Eritrean healthcare building codes, radiation safety regulations, and international best practices in radiology department design.
- Cost Estimation and Budgeting: Providing preliminary and detailed cost estimates for construction, equipment installation, and fit-out.
- Documentation and Technical Drawings: Producing detailed architectural, structural, electrical, and mechanical drawings for construction and implementation.
Who Needs Radiology Room Design & Layout Planning Service In Eritrea?
Radiology room design and layout planning services are crucial for optimizing the efficiency, safety, and patient experience within medical imaging departments. These services are particularly vital for institutions in Eritrea looking to establish new radiology facilities, renovate existing ones, or upgrade their equipment and workflows. The goal is to create a functional, compliant, and patient-centered environment that maximizes the capabilities of advanced imaging technologies.
| Target Customer/Department | Specific Needs & Benefits |
|---|---|
| Hospitals (Public & Private) | Departments: Radiology, Diagnostic Imaging, Medical Physics, Facilities Management. Needs: Creating new imaging suites (CT, MRI, X-ray, Ultrasound), optimizing patient flow, ensuring radiation safety compliance, staff efficiency, patient comfort, accommodating new technologies, workflow integration, infection control, space utilization. |
| Specialty Clinics with Imaging Capabilities | Departments: Cardiology, Neurology, Oncology, Orthopedics, etc. (that house their own imaging). Needs: Integrating imaging equipment seamlessly into specialized clinical areas, ensuring specific imaging modality needs are met (e.g., interventional radiology suites), minimizing patient travel within the clinic, enhancing consultation workflows. |
| Diagnostic Centers | Departments: Radiology, Imaging Services. Needs: Maximizing throughput for high-volume imaging, efficient patient scheduling and reception, optimal equipment placement for diverse modalities, waiting area design, consultation rooms, and technical staff support areas. |
| Government Health Ministries/Agencies | Departments: Health Planning, Infrastructure Development, Public Health. Needs: Developing national standards for radiology facilities, planning for new public health imaging centers, ensuring equitable access to diagnostic services, setting guidelines for radiation safety and equipment procurement, capacity building. |
| International NGOs focused on Healthcare Infrastructure | Departments: Project Management, Medical Infrastructure, Technical Advisory. Needs: Designing and implementing radiology departments in new or renovated healthcare facilities funded by aid, ensuring designs meet international best practices and local health needs, advising on cost-effective and sustainable solutions, training local staff on operational aspects related to layout. |
| Medical Training Institutions | Departments: Radiology Education, Medical Engineering. Needs: Designing simulation or training radiology rooms, incorporating educational spaces within functional departments, ensuring layouts facilitate hands-on learning and observation, space for didactic sessions alongside practical training. |
Target Customers and Departments for Radiology Room Design & Layout Planning Service in Eritrea
- Hospitals (Public and Private)
- Specialty Clinics with Imaging Capabilities
- Diagnostic Centers
- Government Health Ministries/Agencies
- International NGOs focused on Healthcare Infrastructure
- Medical Training Institutions
Radiology Room Design & Layout Planning Service Process In Eritrea
This document outlines the typical workflow for a Radiology Room Design & Layout Planning Service in Eritrea, from the initial client inquiry to the final execution and handover. The process is designed to be systematic and collaborative, ensuring that the client's specific needs and the unique context of Eritrean healthcare infrastructure are met.
| Phase | Key Activities | Deliverables | Timeline (Estimated) | Key Stakeholders |
|---|---|---|---|---|
| Phase 1: Inquiry and Initial Consultation | Client expresses interest in radiology room design services. Initial meeting to understand the client's vision, project scope, budget, and any existing constraints. Discussion of preliminary requirements for the radiology department (e.g., types of imaging modalities, patient volume). | Understanding of project scope and client needs. Agreement on service scope and preliminary pricing. | 1-2 weeks | Client (Hospital/Clinic Management, Radiologists), Service Provider (Design Consultant) |
| Phase 2: Needs Assessment and Site Survey | Detailed assessment of the client's current and future imaging needs. Site survey of the proposed location to evaluate existing infrastructure, space availability, structural integrity, power supply, ventilation, and radiation shielding requirements. Collection of relevant architectural drawings. | Detailed needs assessment report. Site survey report with existing conditions and measurements. Identification of potential challenges and opportunities. | 2-3 weeks | Client (Technical Staff, Radiologists), Service Provider (Architects, Engineers, Radiation Protection Specialists) |
| Phase 3: Conceptual Design and Space Planning | Development of preliminary layout options and conceptual designs based on the needs assessment and site survey. Focus on workflow optimization, patient and staff circulation, radiation safety zones, equipment placement, and compliance with local regulations. Presentation of initial concepts for client feedback. | Conceptual layout drawings. 3D visualizations (optional). Preliminary equipment list. Refined budget estimate. | 3-4 weeks | Client (Management, Radiologists), Service Provider (Design Team) |
| Phase 4: Detailed Design and Technical Specifications | Finalization of the chosen conceptual design. Development of detailed architectural, structural, electrical, mechanical, and plumbing (MEP) drawings. Preparation of precise specifications for all materials, finishes, and building services. Detailed radiation shielding calculations and plans. Creation of tender documents for construction and equipment procurement. | Complete set of detailed architectural and engineering drawings. Material and equipment specifications. Radiation protection plan. Bill of Quantities (BOQ). Tender documents. | 4-6 weeks | Client (Procurement Department), Service Provider (Design Team, Specialized Consultants) |
| Phase 5: Procurement and Vendor Selection | Assisting the client in the procurement process for construction services and radiology equipment. Review of bids, vendor qualifications, and technical proposals. Facilitation of contract negotiations. (Note: This phase may be managed directly by the client with consultant's guidance). | Approved vendor list. Signed contracts for construction and equipment. | 4-8 weeks (depending on client's procurement process) | Client (Procurement, Legal, Technical Departments), Service Provider (Procurement Specialist, Design Team), Vendors |
| Phase 6: Construction and Renovation | Overseeing the construction or renovation process to ensure adherence to the detailed design and specifications. Regular site visits, quality control, and problem-solving. Coordination with the construction team and vendors. | Progress reports. Site inspection reports. Issue resolution logs. | 8-20 weeks (highly variable based on project scale) | Client (Project Manager), Service Provider (Site Supervisor, Design Team), Construction Contractor |
| Phase 7: Equipment Installation and Calibration | Supervising the installation of radiology equipment by vendors. Ensuring proper integration with building services and radiation shielding. Overseeing equipment calibration and initial testing to confirm functionality and safety. | Equipment installation reports. Calibration certificates. Initial test results. | 2-4 weeks (concurrent with later stages of construction) | Client (Technical Staff, Radiologists), Service Provider (Installation Supervisors), Equipment Vendors |
| Phase 8: Final Inspection, Testing, and Handover | Conducting a comprehensive final inspection of the completed radiology room. Witnessing performance testing of all systems and equipment. Verification of compliance with all design specifications and regulatory requirements. Formal handover of the project to the client, including all documentation. | Final inspection report. Performance test results. As-built drawings. O&M manuals. Project completion certificate. | 1-2 weeks | Client (Project Manager, End-Users), Service Provider (Project Lead), Regulatory Authorities (if required) |
| Phase 9: Post-Execution Support | Providing limited post-handover support, addressing any immediate issues or queries. Offering guidance on operational procedures or minor adjustments if required. (Extended support can be arranged separately). | Resolution of any minor outstanding issues. Client satisfaction confirmation. | 2-4 weeks post-handover | Client, Service Provider |
Radiology Room Design & Layout Planning Service Workflow in Eritrea
- Phase 1: Inquiry and Initial Consultation
- Phase 2: Needs Assessment and Site Survey
- Phase 3: Conceptual Design and Space Planning
- Phase 4: Detailed Design and Technical Specifications
- Phase 5: Procurement and Vendor Selection
- Phase 6: Construction and Renovation
- Phase 7: Equipment Installation and Calibration
- Phase 8: Final Inspection, Testing, and Handover
- Phase 9: Post-Execution Support
Radiology Room Design & Layout Planning Service Cost In Eritrea
Planning and designing a radiology room in Eritrea involves several key considerations that influence the overall cost. These factors range from the complexity of the medical equipment to the specific architectural requirements and local market conditions. Understanding these elements is crucial for budgeting accurately for such specialized services. The cost for radiology room design and layout planning in Eritrea can vary significantly, and while precise figures are hard to pin down without a detailed project scope, we can outline the primary drivers of expense.
| Service Component | Estimated Cost Range (Eritrean Nakfa - ERN) | Notes |
|---|---|---|
| Initial Consultation & Site Survey | 1,000 - 3,000 ERN | Basic assessment of needs and site feasibility. |
| Conceptual Design & Layout (per room) | 5,000 - 15,000 ERN | Developing initial floor plans and workflow diagrams. |
| Detailed Architectural & Engineering Drawings | 15,000 - 50,000+ ERN | Includes detailed plans for structure, electrical, plumbing, HVAC, and radiation shielding. Varies greatly with equipment complexity. |
| Equipment Integration Planning | 3,000 - 10,000 ERN | Ensuring adequate space, power, and environmental controls for specific modalities. |
| Regulatory Compliance Review & Support | 2,000 - 7,000 ERN | Assistance with meeting local health and safety standards. |
| Project Management (during design phase) | Hourly or Percentage of Design Fee | Overseeing the design process and coordinating with stakeholders. |
| Full Radiology Room Design Package (Estimate) | 25,000 - 100,000+ ERN | A comprehensive package covering all stages. This is a broad estimate; complex projects can exceed this significantly. |
Key Pricing Factors for Radiology Room Design & Layout Planning in Eritrea:
- Scope of Services: The extent of the design and planning required is a primary cost determinant. This includes initial consultations, site surveys, conceptual design, detailed architectural drawings, equipment integration plans, electrical and plumbing schematics, HVAC specifications, and potentially project management during construction.
- Size and Complexity of the Room: Larger rooms and those accommodating multiple imaging modalities (e.g., X-ray, CT, MRI, ultrasound) will naturally incur higher design costs due to increased complexity in layout, shielding requirements, and workflow optimization.
- Type of Imaging Equipment: Different types of radiology equipment have varying space, power, shielding (especially for X-ray and CT), and ventilation needs. Designing for advanced equipment like MRI, which requires magnetic shielding and significant space, will be more expensive than designing for a basic X-ray room.
- Architectural and Structural Modifications: If the existing building requires significant structural modifications, such as reinforced walls for radiation shielding or specialized flooring, the design phase will need to account for these complexities, increasing costs.
- Regulatory Compliance and Permitting: Eritrea will have specific building codes, health regulations, and radiation safety standards that the design must adhere to. The cost of ensuring compliance and obtaining necessary permits can be factored into the planning service.
- Consultant Expertise and Experience: The reputation, experience, and specialization of the architectural or engineering firm offering the design services will impact their fees. Highly experienced consultants with a proven track record in healthcare facility design often command higher rates.
- Location and Site Specifics: While Eritrea as a whole is the context, specific site conditions, accessibility, and potential environmental factors might influence the design and planning process, indirectly affecting costs.
- Timeline and Urgency: Expedited design services may incur premium charges.
- Technology Integration: The inclusion of advanced IT infrastructure for PACS (Picture Archiving and Communication System) and RIS (Radiology Information System) integration will add to the design complexity and cost.
Affordable Radiology Room Design & Layout Planning Service Options
Our affordable radiology room design and layout planning service offers a streamlined approach to creating efficient, safe, and cost-effective imaging environments. We understand that budget constraints are a significant factor for many healthcare facilities, and our mission is to deliver high-quality design solutions without compromising on functionality or patient care. Our service options are structured to cater to various needs and budgets, emphasizing value through smart planning and optimized resource allocation. We offer transparent pricing and flexible engagement models to ensure you receive the best possible return on your investment.
| Service Option | Key Features | Target Client | Estimated Price Range (Indicative) |
|---|---|---|---|
| Core Design Package | Basic layout, equipment placement, safety review | Small clinics, satellite offices | $1,500 - $3,000 |
| Enhanced Workflow Package | Core + workflow analysis, patient flow, ergonomics | Mid-sized departments, multi-modality rooms | $3,000 - $6,000 |
| Comprehensive Compliance & Optimization | Enhanced + shielding, HVAC, sustainability | New builds, major renovations, research facilities | $6,000 - $12,000+ |
| Add-on Modules (e.g., detailed shielding calc) | Specific expert services | Clients needing specialized input | Varies based on scope |
Value Bundles & Cost-Saving Strategies
- Core Design Package: Includes foundational layout planning, equipment placement recommendations based on workflow, and basic safety compliance considerations. Ideal for smaller practices or departments with established protocols.
- Enhanced Workflow Package: Builds upon the Core package with detailed workflow analysis, consideration of patient flow for multiple modalities, and ergonomic design principles for staff efficiency. This bundle focuses on maximizing throughput.
- Comprehensive Compliance & Optimization: Our premium offering, encompassing all elements of the Enhanced package plus in-depth radiation shielding calculations, detailed electrical and HVAC requirements, and recommendations for sustainable and energy-efficient design. This bundle ensures full regulatory adherence and long-term operational savings.
- Phased Design Approach: For facilities with evolving needs or staggered budgets, we offer project phasing. You can start with essential planning and add more detailed elements as your resources allow.
- Standardized Template Utilization: We leverage proven, standardized room layouts for common modalities, reducing the time and cost associated with bespoke designs while ensuring optimal functionality.
- Equipment Vendor Neutrality: Our designs are based on best practices, not specific vendor equipment. This allows you to solicit competitive bids from multiple equipment suppliers, leading to significant capital cost savings.
- Digital Workflow Integration: Planning for seamless integration of PACS, RIS, and other digital systems from the outset minimizes future IT upgrade costs and operational disruptions.
- Material & Finish Recommendations: Guidance on durable, easily cleanable, and cost-effective materials that meet infection control standards and minimize long-term maintenance expenses.
- Pre-Fabricated Module Integration: Where applicable, we can incorporate pre-fabricated shielding or room modules, which can accelerate construction timelines and reduce on-site labor costs.
- Remote Consultation & Virtual Tours: To minimize travel expenses for our clients, we offer comprehensive remote consultation and the ability to present virtual design walkthroughs.
Verified Providers In Eritrea
Finding verified healthcare providers in Eritrea is crucial for ensuring quality and trustworthy medical care. Franance Health stands out as a leading platform that meticulously vets its network, offering a superior choice for individuals seeking reliable healthcare services. This commitment to verification and excellence sets Franance Health apart from other options.
| Feature | Franance Health Advantage | Other Options (General) |
|---|---|---|
| Verification Depth | Extensive, multi-stage credentialing (licenses, education, experience, ethics) | Often limited to basic licensing checks |
| Patient Safety Focus | Primary consideration, stringent quality benchmarks | May not be explicitly prioritized |
| Information Transparency | Detailed provider profiles, clear qualifications | Information can be fragmented or incomplete |
| Ease of Access | User-friendly platform for search and booking | May require manual research or less organized directories |
| Trustworthiness | High due to thorough vetting and ongoing monitoring | Varies significantly, potential for unverified or lower-quality providers |
Why Franance Health is the Best Choice for Verified Providers in Eritrea:
- Rigorous Verification Process: Franance Health implements a multi-stage credentialing process that goes beyond basic checks. This includes verifying medical licenses, educational qualifications, professional experience, and adherence to ethical standards.
- Focus on Patient Safety and Quality: The platform prioritizes patient well-being by only including providers who meet stringent quality of care benchmarks and demonstrate a commitment to patient safety protocols.
- Comprehensive Provider Database: Franance Health offers access to a diverse range of specialists and general practitioners, covering various medical needs across Eritrea.
- User-Friendly Platform: Their intuitive online platform makes it easy for users to search for verified providers, view their credentials, and book appointments.
- Transparent Information: Franance Health provides clear and accessible information about each provider's qualifications and areas of expertise, empowering patients to make informed decisions.
- Commitment to Ethical Practice: The vetting process actively screens for any disciplinary actions or malpractice claims, ensuring that all listed providers uphold the highest ethical standards.
- Continuous Monitoring: Franance Health doesn't stop at initial verification. They have mechanisms in place for ongoing monitoring to ensure providers maintain their credentials and quality of service.
Scope Of Work For Radiology Room Design & Layout Planning Service
This Scope of Work (SOW) outlines the services to be provided by [Service Provider Name] for the Radiology Room Design & Layout Planning for [Client Name]'s facility. The primary objective is to create an efficient, safe, and compliant radiology room layout that optimizes workflow, patient experience, and staff ergonomics. The service includes detailed design drawings, specifications, and documentation to facilitate construction and equipment installation. Standard specifications will be adhered to, referencing relevant international and national guidelines.
| Deliverable | Description | Format | Standard Specification Reference |
|---|---|---|---|
| Conceptual Layout Drawings | Preliminary floor plans showing room adjacencies, traffic flow, and primary equipment placement. This will be an iterative process based on client feedback. | PDF, CAD (DWG) | Internal best practices, client requirements |
| Detailed Room Layout Plans | Finalized floor plans with precise dimensions, door/window locations, wall constructions, and detailed equipment placement. Includes ceiling layouts for lighting and HVAC integration. | PDF, CAD (DWG) | Architectural Drawing Standards, Local Building Codes |
| Equipment Placement Drawings | Specific drawings illustrating the exact location, clearances, and mounting requirements for all radiology equipment (e.g., X-ray, CT, MRI, Ultrasound machines). | PDF, CAD (DWG) | Equipment Manufacturer Specifications, IEC 60601 series |
| Shielding Design Report | Calculations and recommendations for radiation shielding (lead, concrete, etc.) for walls, doors, and windows to meet regulatory dose limits. | PDF Report | ACR Practice Parameter for Diagnostic Radiology, NCRP Reports |
| Electrical and Data Outlet Layout | Diagrams indicating the precise locations of power outlets, data ports, emergency power connections, and medical gas outlets relevant to radiology equipment. | PDF, CAD (DWG) | NEC (National Electrical Code), Local Electrical Codes |
| Lighting Design Specification | Details on ambient, task, and emergency lighting requirements for different areas within the radiology suite, considering light levels and color temperature. | PDF Report, Lighting Schedule | IES (Illuminating Engineering Society) Standards, Healthcare facility guidelines |
| HVAC Design Considerations | Recommendations for temperature, humidity control, air changes per hour (ACH), and positive/negative pressure requirements for specific radiology rooms (e.g., MRI rooms). | PDF Report | ASHRAE Standards, Healthcare Ventilation Guidelines |
| Finishes and Material Specifications | Recommendations for durable, cleanable, and appropriate finishes for floors, walls, and ceilings, considering infection control and acoustic requirements. | PDF Specification Document | ASTM Standards, Healthcare facility guidelines, Infection control standards |
| 3D Renderings/Visualizations (Optional) | Photorealistic visualizations of the designed radiology rooms to aid in client understanding and review. | JPG, PDF | Client request, marketing standards |
| Final Design Report | Comprehensive document summarizing the design rationale, all technical drawings, specifications, and compliance statements. | Client requirements, Project documentation standards |
Key Service Components
- Initial Consultation and Requirements Gathering
- Space Planning and Functional Layout Design
- Equipment Integration and Workflow Analysis
- Shielding and Safety Calculations (as per regulatory requirements)
- Technical Drawings and Renderings
- Material and Finishes Specification
- Coordination with Stakeholders (Architects, Engineers, Equipment Vendors)
- Final Design Report and Documentation
Service Level Agreement For Radiology Room Design & Layout Planning Service
This Service Level Agreement (SLA) outlines the response times and uptime guarantees for the Radiology Room Design & Layout Planning Service provided by [Your Company Name] (hereinafter referred to as "Provider") to [Client Company Name] (hereinafter referred to as "Client"). This SLA is an integral part of the service agreement between the Provider and the Client.
| Service Component | Response Time Guarantee (Business Hours) | Uptime Guarantee (Applicable to Digital Tools/Platforms) | Definition & Metrics |
|---|---|---|---|
| Initial Consultation Scheduling | Within 1 Business Day | N/A | Upon receiving a formal request, the Provider will contact the Client to schedule the initial consultation. This is measured from the time of the Client's request confirmation by the Provider. |
| Delivery of Conceptual Layout Options | Within 5 Business Days (after Initial Consultation) | N/A | The Provider will deliver the first set of conceptual layout options for review. This timeline is dependent on the complexity of the project and the timely provision of necessary information by the Client. |
| Response to Client Queries/Feedback | Within 4 Business Hours | N/A | For urgent queries requiring immediate clarification. For non-urgent feedback, responses will be provided within 1 Business Day. Measured from the time of receipt of the query/feedback. |
| Delivery of Detailed Design Drawings (Per Revision Cycle) | Within 7 Business Days (per cycle) | N/A | Each subsequent delivery of detailed drawings following client feedback and revisions. The overall project timeline will be communicated separately and may be affected by the number and scope of revisions. |
| Access to Project Management Portal/Platform | N/A | 99.5% | If a digital platform is used for project collaboration, document sharing, and communication, it will be available for Client access at least 99.5% of the time during business hours (Monday-Friday, 9 AM - 5 PM [Client's Time Zone]). Downtime will be communicated in advance where possible. |
| Urgent Issue Resolution (Design-Related) | Within 2 Business Hours (during business hours) | N/A | For critical issues impacting project progression that arise during business hours. The Provider will acknowledge the issue and provide an initial proposed resolution or mitigation plan. |
Service Scope
- Initial consultation and needs assessment for radiology room design.
- Development of conceptual layout options.
- Detailed architectural and engineering drawings for radiology room construction/renovation.
- Equipment placement planning and workflow optimization.
- Review and revision cycles based on client feedback.
- Coordination with relevant stakeholders (e.g., medical physicists, equipment vendors).
In-Depth Guidance
Frequently Asked Questions
Phase 02: Execution
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