Welcome to the CAD Teacher VDCI video series on Revit Project Management. In this comprehensive tutorial, we'll explore advanced techniques for adjusting Visibility and Graphic Overrides (VGO) for imported Revit links—a critical skill for effective BIM coordination in today's collaborative design environment. Currently, we're examining our second floor plan, which you can identify as the active view by its bold highlighting in the Project Browser.

Let's begin with a common coordination challenge. When you zoom into the grid lines, notice the visual inconsistency: solid lines appear on the left, while dashed lines show on the right. This occurs because the structural Revit link displays overlapping grid lines—specifically, our architectural Grid 5 conflicts with the structural team's identical grid. This redundancy creates visual confusion and can lead to coordination errors during design development.

The selection behavior here demonstrates Revit's link hierarchy. Hovering over the grid initially selects the structural element from the linked model. Pressing TAB cycles through available selection options, eventually highlighting our native architectural grid. For clear documentation and accurate coordination, we need to eliminate this visual overlap by controlling the structural link's display properties.

To resolve this issue, navigate to Visibility and Graphic Overrides, then select the Revit Links tab. Here, locate the structural link—in this case, "BIM304structure.rvt"—and note the "By Host View" setting in the rightmost column. This configuration means our current second floor plan view controls the link's visibility settings, drawing parameters from the Model Categories and Annotation Categories tabs of the host view's VGO settings.

Understanding the "By Host View" relationship is crucial for effective link management. When this option is active, both the basic display settings and the detailed category controls become locked, preventing view-specific customization. This standardization can be beneficial for consistency across views, but often limits the flexibility needed for specialized coordination tasks.

To gain control over these settings, click "By Host View" and change it to "Custom." This unlocks all display parameters, allowing view-specific modifications that won't affect other views or the host model's native settings. For structural links, pay particular attention to the Detail Level setting—anything below "Medium" will display structural elements as simple linework rather than their full 3D representation, significantly reducing the effectiveness of clash detection and spatial coordination.

The most impactful adjustment involves the Annotation Categories. While it's generally advisable to maintain Model Categories as "By Host View" to avoid conflicts with your primary VGO settings, Annotation Categories often require custom control. Change this setting from "By Host View" to "Custom," then uncheck "Show annotation categories in this view." This eliminates the duplicate grid display while preserving the essential structural geometry.

Now let's examine how these principles apply to section views, which are critical for MEP coordination and clash detection. Create a section through the building's center using the View tab's Section tool. In the resulting section view, you'll typically see various building systems: plumbing routing, structural foundations, roof framing, and MEP systems. However, the default display often shows these elements as simplified linework, which severely limits coordination effectiveness.

The single-line representation of MEP systems presents a significant challenge for modern BIM workflows. Without accurate sizing information, clash detection becomes unreliable, and spatial coordination suffers. This is particularly problematic given the increasing complexity of building systems and the industry's growing reliance on digital coordination processes.

For each linked discipline—Mechanical, Plumbing, and Structural—apply the same systematic approach. Access the link's settings through VGO > Revit Links, change from "By Host View" to "Custom," then make two critical adjustments: First, disable annotation categories to reduce visual clutter and eliminate dimension/tag conflicts. Second, override the Detail Level from "Coarse" to "Fine," regardless of the host view's setting. This ensures full system representation essential for accurate coordination.

After applying these changes, notice the dramatic improvement in information clarity. Ductwork now displays its actual dimensions, plumbing shows true pipe sizes and routing paths, and structural elements reveal their complete cross-sectional properties. This level of detail transforms the section from a schematic representation into a precise coordination tool.

However, with increased detail comes visual complexity. The enhanced line weights and detailed geometry can overwhelm the primary architectural information. To maintain hierarchy while preserving coordination data, utilize the "Halftone" option for secondary systems. This reduces line weights by 50% and applies grayscale coloring, keeping essential information visible while emphasizing the primary design elements.

Returning to the plan view, apply these same Detail Level adjustments to fully understand system routing and spatial requirements. The transformation from connection points to detailed piping layouts provides valuable insight into chase requirements, clearance needs, and potential coordination conflicts that might not be apparent in simplified representations.

These Visibility and Graphic Override techniques form the foundation of effective BIM coordination, enabling precise control over information display across disciplines while maintaining clear visual hierarchy. In our next session, we'll refine these settings further and explore view templates—a powerful tool for standardizing these configurations across your entire project, ensuring consistency and efficiency throughout the design process.