#HIRING 🚀 Exciting Career Opportunities in the BIM Field! We are seeking dynamic professionals to join our growing teams across the UAE. 📧 If you bring 4-5 years of BIM experience and a proven track record of success, we’d love to connect with you! Apply today and share the updated CV and portfolio on Jobs@bimlord.com
نبذة عنا
BIMLORD is a global leader in providing customized building information modeling (BIM) solutions to architecture, engineering & construction (AEC) firms. BIMLORD provides cutting-edge solutions for the clashes common to most construction industry projects by addressing varied coordination and collaboration challenges.
- الموقع الإلكتروني
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www.bimlord.com
رابط خارجي لـ BIMLORD
- المجال المهني
- الخدمات الهندسية
- حجم الشركة
- ٥١ - ٢٠٠ من الموظفين
- المقر الرئيسي
- Dubai, Dubai
- النوع
- شراكة
المواقع الجغرافية
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رئيسي
Dubai، Dubai، AE
موظفين في BIMLORD
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Azim Hussain
Core expertise in Human Resource Management | Finance | Operations
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Raj S
BIM Coordinator
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Adnan Asif Taimy
HR Head | BIM Outsourcing | BIM Consultant | Arch, MEP, Structures | PRO | NaukriGulf Certified Recruiter
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Bishoy Adel
B.Sc., Architecture and Construction Engineering Program | BIM Coordinator | BIM Architect | BIM Specialist | BIM Modeler
التحديثات
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Urgent Hiring in the UAE 1. BIM Coordinator (2 openings) 2. BIM Architect (4 openings) 3. Architecture BIM Modeler (5 openings) We are looking for candidates available for immediate joining with a minimum of 3+ years of relevant experience. Please send your CV to jobs@bimlord.com and ensure to mention the position you are applying for in the subject line.
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Today, we had the immense pleasure of celebrating Karishma Lunavath incredible birthday at BIMLORD! 🎂 The event beautifully mirrored the warmth and joy she brings to our team. Her bright smile and uplifting energy inspire us all, filling our days with positivity and cheer. Here’s to you, Karishma ! Here’s to a year brimming with success, joy, and new achievements! We’re excited for all that lies ahead and can’t wait to celebrate many more milestones together. Wishing you an incredible year filled with happiness and accomplishments!🎉! 🥳 #HappyBirthday #TeamCelebration #WorkAnniversary #EmployeeAppreciation #LifeAtBIMLORD Karishma Luna
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5 Stunning Architecture Projects That Showcase the Power of BIM Since its early beginnings in the 1960s, Building Information Modeling (BIM) has become an integral tool in architecture. BIM brings tangible value to any construction project: reducing costs, speeding up construction, improving team communication, and enhancing workplace safety. It even enables remote construction. Beyond its practical benefits, BIM elevates the aesthetic potential of architectural design, allowing architects to explore forms that may not have been possible before. Here are 5 stunning examples: 1. Baku Olympic Stadium (Azerbaijan) This 68,000-seat stadium, with a retractable roof, was designed by ROSETTI and Heerim Architects and was completed in just 18 months for the 2015 European Games. 2. Shanghai Tower (China) Designed by Gensler, this architectural marvel stands tall as Shanghai’s iconic skyscraper, merging traditional courtyards into a modern vertical form using BIM. 3. Statoil Regional and International Offices (Norway) A-Lab utilized BIM to design this hashtag-shaped building, a stunning office space that mirrors the Norwegian fjords. 4. National Library of Sejong City (South Korea) Samoo Architects & Engineers crafted a unique library, designed to resemble a page being turned, a perfect tribute to the love of books. 5. Nanjing International Youth Cultural Center (China) The late Zaha Hadid, known as the “Queen of Curves,” used BIM to push architectural boundaries with this dynamic cultural center in Nanjing. #Architecture #BIM #ConstructionTechnology #DesignInnovation #SustainableDesign #DigitalConstruction #ShanghaiTower #BakuOlympicStadium #ZahaHadid #SejongLibrary #StatoilOffices #FutureOfConstruction #ArchitecturalExcellence #BuildingDesign
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What is BIM? Building Information Modeling (BIM) is a digital representation of the physical and functional characteristics of a building or infrastructure. It involves creating and managing 3D models that integrate information about the project’s design, construction, and life-cycle. Importance of BIM in Construction: 1. Enhanced Collaboration: BIM facilitates real-time collaboration among architects, engineers, and contractors, reducing misunderstandings and errors. 2. Improved Efficiency: Streamlines workflows, accelerates project timelines, and minimizes costly reworks by providing accurate and up-to-date information. 3. Cost Savings: Helps in budget management and reduces costs through better planning and resource allocation. 4. Sustainability: Supports energy analysis and optimization, leading to more sustainable and environmentally-friendly designs. 5. Risk Management: Identifies and mitigates potential issues early in the design phase, improving overall project safety and reliability. Stay updated on future job openings by following our LinkedIn page: https://lnkd.in/dPn2qCem #BIM #ConstructionInnovation #BuildingInformationModeling #ProjectManagement #Architecture #Engineering #ConstructionEfficiency #DigitalConstruction #SustainableBuilding
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🚀Why BIM is Revolutionizing the Construction Industry🏗️ In today’s fast-paced construction world, BIM (Building Information Modeling) is no longer just a luxury—it's a necessity! 🔑 Here’s how BIM is transforming the industry: 1- Collaboration & Communication: Seamlessly connect architects, engineers, and contractors in one intelligent platform. 2- Cost & Time Efficiency: Reduces errors and minimizes costly reworks through precise virtual models. 3- Sustainability: Optimizes resource use, aiding in eco-friendly design and construction. 4- Risk Mitigation: Identifies potential issues early, ensuring safer project execution. At #BIMLORD, we’re leveraging the power of BIM to deliver innovative solutions that drive efficiency and sustainability. How is BIM making an impact on your projects? Let’s connect and discuss! Stay updated on future job openings by following our LinkedIn page: https://lnkd.in/dPn2qCem #BIM #ConstructionInnovation #Architecture #Engineering #DigitalTransformation #Linkedin #Dubaijob #opportunity #Revit #Construction #Success
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BIMLORD Walk-In Drive for BIM Architects and BIM Engineers in the UAE We are excited to announce that BIMLORD is organizing a Walk-In Drive for all available BIM Architect and BIM Engineer positions in the UAE. This is a great opportunity for talented professionals to join our team and contribute to exciting projects. Stay tuned for more details! To receive updates and further information about the Walk-In Drive, be sure to follow us on LinkedIn. We look forward to connecting with you! #BIMLORD #WalkInDrive #BIMArchitect #BIMEngineer #UAEJobs #HiringInUAE #BIMCareers #JoinOurTeam #EngineeringJobs #ArchitectJobs #BIMOpportunities #WalkInInterview
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Integrating Artificial Intelligence (AI) into Building Information Modeling (BIM) offers numerous benefits that enhance the efficiency, accuracy, and innovation within the architecture, engineering, and construction (AEC) industry. Here are some key benefits: 1. Improved Design Efficiency: Automation of Repetitive Tasks: AI automates time-consuming tasks such as drafting, model updates, and clash detection, freeing up professionals to focus on more complex aspects of design and decision-making. Generative Design: AI-powered generative design tools can explore countless design options based on specific constraints and goals, allowing for faster and more optimized design solutions. 2. Enhanced Accuracy and Precision: Error Reduction: AI helps in identifying and reducing human errors in BIM models by automatically checking for inconsistencies, clashes, and compliance with standards. Predictive Analytics: AI can analyze historical data to predict potential issues in construction projects, allowing teams to proactively address risks before they escalate. 3. Optimized Resource Management: Cost and Time Savings: AI algorithms can optimize construction schedules and resource allocation, leading to significant cost and time savings. This includes minimizing waste by optimizing material usage. Efficient Workflows: AI streamlines workflows by providing real-time insights and updates, ensuring that all stakeholders have access to the latest information. 4. Data-Driven Decision-Making: Enhanced Data Analysis: AI can process and analyze large volumes of data from BIM models to provide actionable insights, helping stakeholders make informed decisions throughout the project lifecycle. Scenario Simulation: AI allows for the simulation of different construction scenarios, enabling teams to evaluate the impact of various design and construction choices. 5. Sustainability and Energy Efficiency: Sustainable Design: AI can assist in creating energy-efficient and sustainable designs by analyzing environmental data and optimizing building performance. This includes simulations for energy consumption, lighting, and HVAC systems. Lifecycle Analysis: AI enables more accurate lifecycle cost analysis, helping to design buildings that are not only cost-effective in the short term but also sustainable and economical over their entire lifespan. 6. Enhanced Collaboration: Real-Time Updates: AI facilitates real-time updates and collaboration among project teams, ensuring that all stakeholders are working with the most current information. Improved Communication: AI-driven tools can translate complex BIM data into easily understandable visuals and reports, improving communication among non-technical stakeholders. #BIMLORD #AIEmpowersBIM #BIMInnovation #AIEfficiency #DigitalTransformation #ConstructionTech #SustainableBuilding #BIMAdvancement #SmartConstruction
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ISO 19650 is a set of international standards for managing information over the whole life cycle of a built asset using Building Information Modeling (BIM). It provides a unified framework for managing information from the design phase through construction and into operation. Understanding the key terminologies within ISO 19650 is crucial for effective implementation. Here are some essential terms and their definitions: Key Terminologies Asset Information Model (AIM) :A digital representation of the physical and functional characteristics of an asset, used during the operational phase of the asset's lifecycle. Common Data Environment (CDE): A shared digital space where information is stored and managed throughout a project’s lifecycle, facilitating collaboration and ensuring that all stakeholders are working from the same set of information. Employer’s Information Requirements (EIR): A document specifying the information that the employer needs to be produced during the project development process and at project handover. Project Information Model (PIM): A digital representation of the asset being designed and constructed, used during the design and construction phases. Information Management (IM): The process of managing information over the lifecycle of a built asset, including the creation, sharing, use, and storage of information. Information Delivery Plan (IDP): A plan that outlines when project information is to be delivered, what information is required, and who is responsible for providing it. Level of Information Need: The degree of information detail required at different stages of a project, balancing the need for detail with the costs of producing and managing it. Task Information Delivery Plan (TIDP): A detailed plan prepared by a task team, specifying the information they will deliver and the timing of these deliveries. Master Information Delivery Plan (MIDP): A comprehensive plan that consolidates all Task Information Delivery Plans (TIDPs) and outlines the overall information delivery strategy for a project. Information Protocol: An agreement that sets out the standards, methods, and procedures for managing information on a project. Information Container: A package of information that can be managed, stored, and exchanged, such as a document, drawing, or model file. Information Requirements: The specific information that must be delivered at various stages of a project to meet the needs of stakeholders. Digital Plan of Work (DPoW): A structured framework that outlines the stages of a project and the information required at each stage. Federated Model: A composite model created by integrating multiple discipline-specific models, ensuring coordinated and clash-free designs. Information Standard: A set of guidelines and criteria that govern how information is created, managed, and exchanged.
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BIM Standards and Protocols BIM Standards and Protocols are structured guidelines and frameworks that ensure consistency, quality, and interoperability in Building Information Modeling (BIM) processes. These standards and protocols help in defining the rules and procedures for creating, managing, and exchanging building information models. Here are key components and aspects of BIM standards and protocols: 1. Common Data Environment (CDE) Definition: A CDE is a central repository where all project information is stored, managed, and shared. Purpose: Ensures all stakeholders have access to the latest and most accurate project data. 2. Level of Development (LOD) Definition: LOD defines the detail and reliability of BIM elements at various stages of the project lifecycle. Levels: Ranges from LOD 100 (conceptual) to LOD 500 (as-built). 3. Information Delivery Manual (IDM) Definition: IDM outlines the specific information exchanges required at various project stages. Purpose: Ensures all necessary information is delivered in a timely and organized manner. 4. Industry Foundation Classes (IFC) Definition: IFC is an open, vendor-neutral data format for sharing and exchanging BIM data. Purpose: Promotes interoperability between different software applications used in BIM processes. 5. BIM Execution Plan (BEP) Definition: A BEP is a comprehensive document that outlines the processes, workflows, and standards for BIM implementation on a project. Purpose: Ensures all project participants are aligned with the BIM objectives and methodologies. 6. COBie (Construction Operations Building Information Exchange) Definition: COBie is a standard for capturing and exchanging building asset data. Purpose: Facilitates the transfer of essential information to support building operations and maintenance. 7. Naming Conventions and Classification Systems Definition: Standardized methods for naming and classifying BIM elements. Purpose: Ensures consistency and clarity across the project documentation and models. 8. Project Information Requirements (PIR) Definition: PIR defines the information needs of the client or project stakeholders. Purpose: Ensures the final BIM deliverables meet the expectations and requirements of the project owners. 9. Digital Plan of Work (DPoW) Definition: DPoW outlines the tasks and information requirements at each project stage. Purpose: Guides the project team through the stages of the BIM process, ensuring compliance with standards and protocols. 10. Standards Organizations ISO 19650: An international standard for managing information over the whole life cycle of a built asset using BIM. PAS 1192: A British standard that provides a framework for collaborative BIM working and information management. #Architecture #Architect #BIMEngineer #BIMModeler #JobOpening #CADArchitect #CADDraughtsman #BIMArchitect #Structure #knowledgesharing #BIMStandards #protocal