3D Visual Designer

📍 Job Overview

Job Title: 3D Visual Designer

Company: Inspekt AI

Location: Manila, Metro Manila, Philippines

Job Type: Full-Time

Category: 3D Art & Design / Visual Quality Assurance

Date Posted: May 15, 2026

Experience Level: Mid-Level (2-5 years)

Remote Status: Remote OK

🚀 Role Summary

• Enhance the visual fidelity and accuracy of 3D building models generated from photogrammetry and drone-captured data, ensuring high-quality visual outputs for a geospatial platform.

• Optimize 3D assets for real-time rendering in web browsers, focusing on performance metrics such as polygon budgets, Level of Detail (LOD) strategies, and texture compression.

• Develop and maintain a cohesive visual style and high standard of realism for 3D models, crucial for professional inspection workflows and client trust.

• Collaborate closely with computer vision, drone operations, and engineering teams to integrate 3D assets seamlessly into the Inspekt AI platform and refine automated model generation processes.

• Research and implement emerging tools and workflows to continuously improve 3D asset quality and production efficiency, driving innovation in visual representation.

📝 Enhancement Note: This role is positioned at the intersection of 3D art, geospatial technology, and quality assurance. The emphasis on "visual quality of our 3D models" and "polished, visually accurate representations" indicates a critical need for an artist who can bridge the gap between raw data and a professional, user-facing product. The mention of "OBJ meshes and Cesium-based 3D tiles" points towards a specific technical pipeline.

📈 Primary Responsibilities

• Refine and elevate the visual quality of 3D building models derived from photogrammetry and drone data, including meticulous mesh cleaning, correction of geometric artifacts, and enhancement of surface details.

• Apply and optimize textures, materials, and shading techniques to achieve a high degree of realism suitable for professional inspection and asset management workflows.

• Manage and process 3D file formats including OBJ, glTF, and Cesium 3D Tiles throughout the production pipeline, from initial export to final platform integration.

• Establish and maintain a consistent visual style and aesthetic for all 3D assets within the Inspekt AI platform, ensuring brand coherence and user experience.

• Partner with the engineering team to implement performance optimizations for 3D models, ensuring they are efficient for browser-based rendering by adhering to polygon budgets and employing effective LOD strategies and texture compression methods.

• Evaluate and provide feedback on automated 3D model generation outputs, identifying quality issues and proposing actionable improvements to the underlying processes and algorithms.

• Conduct research and perform testing on new 3D tools, software, and workflows to identify opportunities for enhancing asset quality and improving production efficiency.

📝 Enhancement Note: The responsibilities highlight a blend of artistic refinement and technical optimization. The emphasis on "cleaning meshes," "correcting geometry artefacts," and "enhancing surface detail" points to a strong need for traditional 3D art skills. The integration with engineering for performance optimization and the evaluation of automated outputs suggest a role that is not purely artistic but also deeply involved in the technical pipeline and QA.

🎓 Skills & Qualifications

Education: While no specific degree is mandated, a strong portfolio demonstrating equivalent practical experience and mastery of 3D design principles is paramount. A background in Fine Arts, Digital Art, Graphic Design, or a related technical field is beneficial.

Experience: Proven experience (2-5 years) in 3D visualization, asset creation, and optimization, with a focus on realism and performance for real-time applications. Experience with photogrammetry outputs and geospatial 3D data is highly desirable.

Required Skills:

• Proven proficiency in 3D modeling software, with a strong emphasis on Blender as the primary tool; experience with other industry-standard packages (e.g., Cinema 4D, 3ds Max, Maya) is a plus.

• Comprehensive understanding of mesh topology, UV unwrapping, texture baking, and Physically Based Rendering (PBR) material workflows.

• Familiarity with common 3D file formats such as OBJ, glTF/GLB, and ideally geospatial 3D formats like Cesium 3D Tiles.

• A keen visual eye for assessing 3D model quality, identifying critical issues, and executing targeted improvements.

• Experience in handling and optimizing large, real-world scan data, including managing associated artifacts.

Preferred Skills:

• Experience with CesiumJS or other geospatial 3D rendering platforms.

• Familiarity with web-based 3D technologies like Three.js or WebGL, understanding how models are rendered in a browser context.

• Background or interest in architecture, construction, or property inspection domains.

• Scripting skills in Python for automating tasks within Blender or for batch processing 3D assets.

• Exposure to or interest in drone-captured data, LiDAR point clouds, or thermal imaging datasets.

📝 Enhancement Note: The requirement for Blender proficiency is explicit. The emphasis on "PBR material workflows" and "Cesium 3D Tiles" points to specific technical demands. The "good visual eye" combined with experience in large scan data suggests a candidate who can both create aesthetically pleasing results and troubleshoot technical visual issues.

📊 Process & Systems Portfolio Requirements

Portfolio Essentials:

• Showcase a range of 3D models demonstrating proficiency in mesh cleaning, geometry correction, and detail enhancement.

• Include examples of PBR texturing and material application, highlighting realism and adherence to industry standards.

• Present case studies of 3D asset optimization for real-time rendering, detailing techniques used for polygon reduction, LOD implementation, and texture compression.

• Demonstrate experience with OBJ, glTF/GLB, and ideally Cesium 3D Tiles formats, showing workflow integration.

Process Documentation:

• Provide examples of workflow diagrams or descriptions for 3D asset creation and optimization pipelines.

• Document methodologies for evaluating and improving automated 3D model generation outputs.

• Showcase research into and implementation of new tools or techniques for enhancing 3D visual quality or production efficiency.

• Illustrate collaborative processes with engineering or technical teams for asset integration and performance optimization.

📝 Enhancement Note: For a 3D Visual Designer role, the portfolio is paramount. It must not only display artistic talent but also practical application of technical skills for optimization and integration into specific data formats (Cesium 3D Tiles, glTF). The ability to document and explain one's process, especially concerning optimization and collaboration with engineering, will be critical.

💵 Compensation & Benefits

Salary Range: Based on the role's mid-level experience requirement (2-5 years), the location in Manila, Philippines, and industry benchmarks for specialized 3D design roles within tech companies, the estimated salary range is PHP 70,000 - PHP 120,000 per month. This range accounts for the technical expertise in 3D modeling, optimization, and geospatial formats.

Benefits:

• Competitive Compensation: A salary benchmarked against industry standards for skilled 3D visual designers in the tech sector.

• ESOP Eligibility: Eligibility for Employee Stock Ownership Plan, offering potential long-term financial upside and a stake in the company's growth.

• Remote-First Working Arrangement: Flexibility to work from home, promoting work-life balance and accessibility regardless of location within the specified region.

• Collaborative Technical Team: Opportunity to work with a skilled and dedicated team on challenging technical problems.

• Growth Opportunity: Potential for career advancement and professional development as the company scales internationally.

Working Hours: Typically 40 hours per week, with flexibility in scheduling due to the remote-first nature of the role. This allows for alignment with international team collaboration needs while accommodating individual work styles.

📝 Enhancement Note: The salary estimate is based on research for mid-level 3D artists/visualizers in Manila, Philippines, considering the tech industry and specialized skills like geospatial formats. The benefits listed are directly from the provided text.

🎯 Team & Company Context

🏢 Company Culture

Industry: Technology, specifically focused on Artificial Intelligence (AI) applied to property inspection and asset management. The use of computer vision, drones, and 3D modeling places Inspekt AI at the forefront of proptech and AI innovation.

Company Size: Inspekt AI is likely a growing startup or scale-up, indicated by the "Opportunity to grow with the company as we scale internationally" and the mention of ESOP eligibility. This suggests a dynamic, potentially fast-paced environment where individual contributions have significant visibility and impact.

Founded: The founding date is not specified, but the company is actively developing and deploying advanced technology, implying it is established enough to have a product and customer base but still in a growth phase.

Team Structure:

• The operations team is likely small and highly specialized, comprising individuals with expertise in computer vision, drone operations, engineering, and now, 3D visual design.

• Reporting structure is expected to be relatively flat, common in startups, with the 3D Visual Designer potentially reporting to a Head of Engineering, Product Lead, or a dedicated Art/Design Director if one exists.

Methodology:

• Data-driven insights are central, with the platform transforming "raw field data into clear, actionable insights."

• Workflow optimization is inherent in automating complex processes like property inspections.

• Automation and efficiency are core to the company's mission, leveraging AI and advanced technologies to streamline operations.

Company Website: inspektai.com

📝 Enhancement Note: The company culture is inferred from its mission and offerings. A startup environment often means direct impact, close collaboration, and opportunities for growth. The tech-heavy nature suggests a data-driven and innovation-focused approach.

📈 Career & Growth Analysis

Operations Career Level: This role is categorized as a Mid-Level 3D Visual Designer, responsible for the visual quality of 3D models. It requires specialized artistic and technical skills, with a focus on optimization for real-time applications. The role involves significant ownership of visual output and collaboration with technical teams.

Reporting Structure: The designer will likely report to a technical lead or engineering manager, given the close collaboration with computer vision and engineering teams. This structure emphasizes the technical integration of visual assets into the platform.

Operations Impact: The 3D Visual Designer's work directly impacts the user experience and perceived accuracy of the Inspekt AI platform. High-quality, visually accurate 3D models build trust with clients (inspectors, engineers, asset managers) and enhance the utility of the platform's insights. The role is crucial for translating raw data into a compelling and reliable product.

Growth Opportunities:

• Specialization: Deepen expertise in geospatial 3D formats (Cesium 3D Tiles), real-time rendering optimization, and potentially AI-driven visualization workflows.

• Leadership: As the company scales, opportunities may arise to lead visual design efforts, mentor junior designers, or establish visual style guides and best practices for the team.

• Skill Expansion: Develop proficiency in Python scripting for automation, explore advanced photogrammetry techniques, or gain experience with other relevant 3D software and rendering engines.

• Cross-Functional Learning: Gain deeper insights into computer vision, drone operations, and software engineering, fostering a more holistic understanding of the product development lifecycle.

📝 Enhancement Note: The growth opportunities are framed around deepening technical and artistic skills relevant to the geospatial 3D domain and the potential for leadership within a growing tech company.

🌐 Work Environment

Office Type: The role is described as "Remote OK" and "Flexible, remote-first working arrangement," indicating that the company operates with a distributed workforce. There may not be a central physical office, or if one exists, it is not the primary mode of operation for this role.

Office Location(s): While the job is posted for Manila, Metro Manila, Philippines, the remote-first nature suggests that candidates from other locations within the Philippines or potentially other regions may be considered, provided they can work effectively asynchronously and align with the company's operational hours.

Workspace Context:

• The work environment is digital and collaborative, relying heavily on communication tools (e.g., Slack, Teams) and project management software.

• Access to cloud-based tools and robust internet connectivity is essential for seamless remote collaboration and asset transfer.

• The team culture likely emphasizes independence, proactive communication, and a results-oriented approach, common in remote-first tech companies.

Work Schedule: A standard 40-hour work week is implied, but the "flexible" nature of the remote-first arrangement allows for some autonomy in scheduling. This flexibility is beneficial for managing personal time and coordinating with international team members across different time zones.

📝 Enhancement Note: The emphasis on "remote-first" and "flexible" indicates that the company prioritizes asynchronous communication and autonomy, which is crucial for candidates to understand when assessing their fit with the work environment.

📄 Application & Portfolio Review Process

Interview Process:

• Initial Screening: A review of your resume and portfolio to assess foundational skills and experience in 3D design and relevant software.

• Technical Interview: This stage will likely involve in-depth discussion about your 3D modeling techniques, PBR workflows, optimization strategies, and experience with specific file formats (OBJ, glTF, Cesium 3D Tiles). Be prepared to discuss how you approach mesh cleaning, texture application, and performance optimization.

• Portfolio Presentation: You will likely be asked to present a curated selection of your work, explaining your process, challenges faced, and solutions implemented for key projects. Focus on demonstrating your ability to improve visual quality and optimize assets.

• Team/Cultural Fit Interview: An opportunity to meet with team members from engineering or computer vision to discuss collaboration styles, problem-solving approaches, and how you fit into a distributed, international team.

• Final Interview: Potentially with a hiring manager or senior leader to discuss overall fit, career aspirations, and confirmation of role expectations.

Portfolio Review Tips:

• Curate Strategically: Select projects that best showcase your proficiency in Blender, PBR workflows, optimization for real-time rendering, and experience with geospatial formats. Include examples of transforming raw or artifact-laden data into polished assets.

• Quantify Impact: Where possible, use metrics to demonstrate the results of your optimization efforts (e.g., polygon reduction percentage, texture file size savings, frame rate improvements).

• Explain Your Process: For each project, clearly articulate your problem-solving approach, the tools and techniques used, and the rationale behind your design decisions. Highlight how you addressed specific challenges related to geometry, textures, or performance.

• Showcase Collaboration: If possible, include examples or discussions on how you collaborated with technical teams or incorporated feedback from engineers.

• Address Role Specifics: Ensure your portfolio highlights experience with OBJ, glTF, and Cesium 3D Tiles, and mention any relevant experience with photogrammetry outputs.

Challenge Preparation:

• Be ready for potential technical challenges that might involve optimizing a sample 3D model for web performance, critiquing the visual quality of an existing asset, or outlining a workflow for a specific 3D asset creation task.

• Prepare to articulate your thought process clearly and concisely, demonstrating your understanding of 3D art principles and technical constraints.

• Practice explaining complex 3D concepts and optimization techniques in a way that is understandable to both technical and non-technical stakeholders.

📝 Enhancement Note: The interview preparation advice is tailored to the specific technical requirements of the role, emphasizing the portfolio's role in demonstrating practical skills and the importance of clearly articulating one's process and impact.

🛠 Tools & Technology Stack

Primary Tools:

• 3D Modeling: Blender (primary), Cinema 4D, 3ds Max, Maya (as a plus). Proficiency in Blender for modeling, sculpting, UV unwrapping, and material setup is essential.

• Asset Formats: OBJ, glTF/GLB, Cesium 3D Tiles. Understanding the nuances and optimization considerations for each format is critical.

• Photogrammetry Software: Experience with outputs from tools like RealityCapture, Metashape, or similar is highly desirable.

Analytics & Reporting:

CRM & Automation:

• Scripting: Python (for Blender automation) is a significant plus, enabling workflow efficiencies.

• Web 3D Technologies: Three.js, WebGL (for understanding browser rendering).

• Geospatial Platforms: CesiumJS (preferred).

📝 Enhancement Note: The technology stack explicitly lists the core software and formats required for this role, highlighting Blender and specific geospatial 3D file types. The mention of Python scripting and web 3D technologies indicates a forward-thinking approach to efficiency and integration.

👥 Team Culture & Values

Operations Values:

• Quality & Accuracy: A commitment to delivering visually accurate and high-fidelity 3D models that users can trust for professional inspection workflows.

• Efficiency & Optimization: A drive to create performant 3D assets that load quickly and render smoothly in web browsers, directly impacting user experience and platform scalability.

• Innovation & Continuous Improvement: An eagerness to research, test, and adopt new tools and workflows to enhance asset quality and production efficiency.

• Collaboration & Communication: A strong emphasis on clear, proactive communication and effective teamwork within a distributed, international setting.

Collaboration Style:

• Cross-functional Integration: The designer will work closely with engineers and computer vision specialists, requiring a collaborative approach to integrate visual assets and address technical constraints.

• Feedback-Driven: An open culture for providing and receiving constructive feedback on visual quality, technical performance, and process improvements.

• Knowledge Sharing: A willingness to share insights on 3D art techniques, optimization strategies, and emerging tools with the broader team.

📝 Enhancement Note: The values are inferred from the role's responsibilities and the company's mission. The emphasis on visual quality, performance, and collaboration are key cultural indicators for this position.

⚡ Challenges & Growth Opportunities

Challenges:

• Data Artifacts: Working with raw spatial data and photogrammetry outputs often involves dealing with noise, holes, and geometric inaccuracies. The challenge lies in effectively cleaning and enhancing these models without losing critical detail.

• Performance Optimization: Balancing visual fidelity with real-time rendering performance in a browser is a continuous challenge, requiring expertise in LOD strategies, texture compression, and polygon budgeting.

• Consistency Across Large Datasets: Maintaining a consistent visual style and quality across a vast number of 3D models representing diverse real-world structures can be demanding.

• Bridging Art and Technology: Effectively communicating artistic intent and requirements to a technical engineering team, and understanding technical limitations from an artistic perspective.

Learning & Development Opportunities:

• Advanced Geospatial 3D: Deepen expertise in Cesium 3D Tiles and related geospatial visualization technologies.

• Real-Time Rendering Optimization: Become a specialist in optimizing 3D assets for web performance and other real-time engines.

• AI-Assisted 3D Workflows: Explore how AI and machine learning are impacting 3D asset creation and optimization.

• Scripting & Automation: Develop Python scripting skills to automate repetitive tasks in Blender, significantly boosting personal and team efficiency.

📝 Enhancement Note: The challenges are derived from the nature of working with raw 3D scan data and real-time web rendering. Growth opportunities focus on deepening specialized skills within the geospatial 3D domain and embracing automation.

💡 Interview Preparation

Strategy Questions:

• "How would you approach improving the visual quality of a 3D building model that has significant noise and holes from photogrammetry?" (Focus on mesh cleaning, sculpting, retopology techniques).

• "Describe your process for optimizing a complex 3D model for real-time rendering in a web browser. What key metrics do you monitor?" (Discuss LOD, texture compression, polygon reduction, draw calls, frame rates).

Company & Culture Questions:

• "What interests you about Inspekt AI's mission and the application of 3D technology in property inspection?" (Show genuine interest in the company's domain and technology).

• "How do you prefer to collaborate with engineers or technical teams on projects involving 3D assets?" (Highlight communication skills, understanding of technical constraints, and a proactive approach).

Portfolio Presentation Strategy:

• Start with Impact: Begin with your strongest, most relevant projects that showcase your core skills for this role (Blender, PBR, optimization, Cesium 3D Tiles).

• Tell a Story: For each project, explain the problem, your approach, the tools you used, the challenges you overcame, and the results achieved. Quantify improvements where possible.

• Highlight Technical Skills: Explicitly point out how you handled mesh topology, UV mapping, PBR materials, and optimization techniques. Discuss your experience with OBJ, glTF, and Cesium 3D Tiles.

• Demonstrate Problem-Solving: Showcase projects where you had to troubleshoot or enhance raw/imperfect data, demonstrating your ability to deal with real-world scan data artifacts.

• Be Prepared for Q&A: Anticipate questions about your workflow, software choices, and how you handle feedback.

📝 Enhancement Note: Interview preparation focuses on practical, scenario-based questions that assess the candidate's technical skills, problem-solving abilities, and understanding of the role's specific demands within the Inspekt AI context.

📌 Application Steps

To apply for this 3D Visual Designer position:

• Submit your application through the provided link on the careers page.

• Tailor Your Resume: Highlight specific experience with Blender, PBR workflows, 3D asset optimization for real-time rendering, and familiarity with OBJ, glTF, and Cesium 3D Tiles. Use keywords from the job description.

• Curate Your Portfolio: Select 3-5 of your strongest projects that best demonstrate your proficiency in mesh cleaning, texture/material application, performance optimization, and handling real-world scan data. Ensure it's easily accessible (e.g., via a personal website or portfolio platform).

• Prepare Your Portfolio Walkthrough: Practice explaining your selected projects, focusing on your process, technical challenges, solutions, and the impact of your work. Be ready to discuss how you would approach the responsibilities outlined in the job description.

• Research Inspekt AI: Understand the company's mission, technology (computer vision, drones, 3D modeling), and target market. Prepare to articulate why your skills are a strong fit for their unique application of 3D visualization.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and operations industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.

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