Drone Roof Inspections: How Technology is Revolutionizing Roofing in 2025

The Future of Roof Assessment is Here: Faster, Safer, and More Accurate Than Ever

The roofing industry’s technological revolution has arrived, transforming how contractors inspect, document, and repair roofs across America. Drone roof inspections, once considered futuristic, now represent the standard for professional roofing companies committed to accuracy, safety, and efficiency. Combined with thermal imaging, artificial intelligence, and 3D modeling capabilities, these technologies detect problems invisible to the human eye, predict failures before they occur, and generate precise measurements that eliminate estimating errors. Since integrating drone technology into our inspection protocols, Hixon’s Roofing has reduced inspection times by 75%, improved damage detection accuracy by 40%, and eliminated ladder-related safety incidents entirely—while actually reducing costs for South Carolina property owners.

The Evolution of Roof Inspection Technology

Traditional roof inspections relied on physical access, visual observation, and subjective assessment. Inspectors climbed ladders, walked potentially dangerous surfaces, and made educated guesses about hidden damage. This approach created multiple problems: safety risks for inspectors, limited visibility of certain areas, weather-dependent scheduling, incomplete documentation, and inconsistent findings between different inspectors. Property owners received hand-drawn diagrams, grainy photographs, and verbal descriptions that made informed decisions difficult.

Today’s drone-equipped inspectors capture 4K resolution imagery of every square inch, detect temperature variations indicating moisture intrusion, measure roof dimensions within 98% accuracy, create 3D models for virtual walkthroughs, and generate comprehensive digital reports with annotated findings. This technological leap represents more than incremental improvement—it fundamentally transforms how roofing professionals understand and communicate roof conditions.

The catalyst for widespread adoption came from converging technological advances. Consumer drone prices dropped 80% between 2020 and 2025 while capabilities expanded exponentially. Thermal cameras miniaturized to drone-portable sizes. Cloud computing enabled real-time image processing and AI analysis. Mobile networks reached speeds supporting instant data transmission. Software platforms integrated these technologies into seamless workflows accessible to roofing contractors nationwide.

Insurance companies accelerated adoption by accepting—and increasingly preferring—drone inspection documentation for claims processing. Major carriers report drone inspections reduce claim processing time by 30% while improving accuracy. This acceptance legitimized the technology and created competitive pressure for contractors to adopt modern inspection methods.

Understanding Drone Roof Inspection Technology

Modern roofing drones represent sophisticated inspection platforms combining multiple technologies into integrated systems. Understanding their capabilities helps property owners appreciate the value these tools provide beyond simple aerial photography.

Hardware Capabilities

Professional roofing drones incorporate:

High-Resolution Cameras: 20-48 megapixel sensors capturing detail invisible from ground level

• 4K video recording for dynamic assessment
• Optical zoom preventing detail loss at distance
• Image stabilization ensuring sharp captures despite wind
• HDR processing revealing details in shadows and highlights

Thermal Imaging Sensors: FLIR or DJI thermal cameras detecting temperature variations

• 640×512 resolution thermal sensors
• Temperature measurement accuracy within 2°C
• Radiometric recording for post-flight analysis
• Dual visible/thermal capture for correlation

LiDAR Scanning: Light detection and ranging for precise 3D mapping

• Millimeter-level measurement accuracy
• Penetration through vegetation to roof surface
• Slope and drainage analysis capabilities
• Volume calculations for material estimation

Obstacle Avoidance: Safety systems preventing collisions

• 360-degree sensing coverage
• Automatic emergency braking
• Return-to-home failsafes
• Geofencing for restricted areas

Flight Planning Software

Autonomous flight capabilities ensure complete, consistent coverage:

• Pre-programmed inspection patterns
• Overlap optimization for 3D reconstruction
• Altitude adjustment for consistent ground sampling distance
• Waypoint navigation for complex roof geometries
• Weather monitoring and flight condition assessment

Professional pilots can manually control drones for detailed investigation while automated flights ensure nothing gets missed. The combination provides both comprehensive coverage and focused examination where needed.

Data Processing Platforms

Raw drone data requires sophisticated processing to generate actionable insights:

• Photogrammetry software creating 3D models from 2D images
• Thermal analysis identifying moisture patterns
• AI algorithms detecting and classifying damage
• Measurement tools calculating areas, lengths, and slopes
• Report generation combining findings into client deliverables

Cloud-based processing enables same-day report delivery, transforming multi-day traditional inspections into hours-long comprehensive assessments.

Thermal Imaging Roof Inspection: Seeing the Invisible

Thermal imaging represents drone inspection’s most powerful capability, revealing problems completely invisible to visual observation. By detecting temperature variations across roof surfaces, thermal cameras identify moisture intrusion, insulation gaps, and structural issues before they cause visible damage.

How Thermal Detection Works

Moisture trapped within roofing systems retains heat differently than dry materials. During day-to-night thermal cycles, wet areas appear as distinct thermal signatures:

Evening Inspections (Most Effective):

• Dry roofing materials cool rapidly after sunset
• Moisture-laden areas retain daytime heat longer
• Temperature differentials reach maximum contrast
• Clear thermal patterns emerge indicating problem areas

Morning Inspections:

• Wet areas remain cooler as sun heats roof
• Less dramatic temperature differences
• Useful for confirming evening findings
• Better for certain roof types and orientations

Optimal thermal inspection windows occur 2-3 hours after sunset on clear days following sunny weather. These conditions maximize thermal contrast, making problems obvious that remain hidden during visual inspection.

Detecting Specific Problems

Thermal imaging identifies multiple roofing issues:

Moisture Intrusion:

• Pinpoint leak sources before interior damage
• Track water paths through roofing systems
• Identify saturated insulation requiring replacement
• Quantify affected areas for repair planning

Insulation Deficiencies:

• Locate missing or compressed insulation
• Identify thermal bridging at structural members
• Detect air infiltration paths
• Verify installation quality in new construction

Membrane Degradation:

• Find areas of delamination or separation
• Detect adhesive failures in fully-adhered systems
• Identify fastener backing out in mechanically-attached systems
• Locate seam failures before leaks develop

Structural Issues:

• Discover deck deterioration from moisture damage
• Identify sagging or deflection patterns
• Detect heat loss at penetrations and transitions
• Find ponding water areas affecting drainage

Commercial Building Applications

Large commercial roofs particularly benefit from thermal inspection:

• Prioritize repairs across expansive roof areas
• Schedule maintenance before failures occur
• Verify warranty compliance for moisture content
• Document conditions for insurance purposes
• Plan phased replacements based on condition mapping

Our thermal inspections of Charleston commercial properties consistently identify problems affecting 15-30% of roof areas that appear perfectly normal during visual inspection. Early detection prevents emergency repairs and extends roof lifespan significantly.

AI Roof Damage Detection: Machine Learning Meets Roofing

Artificial intelligence transforms raw inspection data into actionable intelligence, automatically identifying and classifying damage with accuracy exceeding human inspectors. Machine learning algorithms trained on millions of roof images recognize patterns, predict failures, and quantify damage severity with remarkable precision.

How AI Analysis Works

Modern AI systems employ multiple techniques:

Computer Vision:

• Pattern recognition identifying damage types
• Edge detection outlining affected areas
• Color analysis detecting aging and wear
• Texture analysis finding surface irregularities

Deep Learning Networks:

• Convolutional neural networks trained on damage images
• Transfer learning adapting to regional damage patterns
• Ensemble methods combining multiple AI models
• Continuous learning improving with each inspection

Predictive Analytics:

• Failure probability calculations based on current conditions
• Remaining useful life estimation
• Maintenance optimization recommendations
• Cost-benefit analysis for repair vs. replacement

Damage Classification Capabilities

AI systems identify and categorize numerous damage types:

Shingle Damage:

• Missing shingles with precise counts
• Cracked or broken shingles by severity
• Curling edges indicating age
• Granule loss patterns suggesting hail impact
• Exposed mat requiring immediate attention

Metal Roofing Issues:

• Rust spots and corrosion patterns
• Fastener problems including backing out
• Panel separation or oil canning
• Coating degradation and color fade
• Impact dents from hail or debris

Flat Roof Problems:

• Membrane punctures and tears
• Blistering indicating moisture
• Seam separation development
• Ponding water area calculation
• Ballast displacement on protected systems

Structural Concerns:

• Sagging patterns suggesting deck issues
• Vegetation growth requiring attention
• Gutter and drainage problems
• Flashing failures at critical transitions
• Chimney and penetration deterioration

Accuracy and Reliability

Current AI systems achieve impressive accuracy:

• 95% detection rate for missing shingles
• 88% accuracy identifying hail damage
• 92% success categorizing damage severity
• 85% correlation with professional assessments
• 90% reduction in inspection oversight needs

False positives remain challenges, particularly with shadows, debris, or unusual roof features. Human review ensures AI findings receive appropriate context and verification.

Integration with Repair Planning

AI analysis streamlines repair planning through:

• Automatic material quantity calculations
• Labor hour estimation based on damage extent
• Priority ranking for multiple issues
• Budget forecasting for identified repairs
• Warranty documentation for damage claims

Property owners receive detailed reports showing exactly what needs repair, why it matters, and what it will cost—eliminating estimation guesswork.

3D Modeling and Measurement Accuracy

Photogrammetry technology creates precise 3D roof models from drone imagery, revolutionizing measurement accuracy and project planning. These digital twins enable virtual site visits, exact material calculations, and detailed project visualization impossible with traditional methods.

Creating 3D Models

The modeling process combines hundreds of overlapping images:

Image Capture:

• 75-85% overlap between adjacent photos
• Multiple angles capturing all surfaces
• Consistent altitude maintaining resolution
• Ground control points ensuring accuracy
• Sufficient lighting avoiding harsh shadows

Processing Workflow:

• Structure from Motion identifying common points
• Dense cloud generation creating millions of points
• Mesh creation forming solid surfaces
• Texture mapping applying actual imagery
• Orthomosaic generation for overhead views

Model Outputs:

• Interactive 3D models for virtual exploration
• Accurate measurements of any distance or area
• Elevation models showing height variations
• Contour maps revealing drainage patterns
• CAD exports for design integration

Measurement Precision

Modern photogrammetry achieves remarkable accuracy:

• Linear measurements within 1-2% of actual
• Area calculations accurate to 98%
• Slope measurements within 1 degree
• Volume calculations for material estimation
• Height determinations for safety planning

This precision eliminates common estimating errors:

• No more forgetting dormers or additions
• Accurate waste factor calculations
• Precise material ordering reducing overages
• Exact labor estimates based on actual areas
• Proper equipment sizing for access needs

Applications Beyond Measurement

3D models provide value throughout projects:

Design and Planning:

• Solar panel layout optimization
• Drainage improvement visualization
• Addition or modification planning
• Structural load analysis
• Aesthetic option comparison

Communication Tools:

• Client presentations showing conditions
• Insurance documentation for claims
• Contractor coordination for complex projects
• Progress tracking during installation
• As-built documentation for warranties

Long-term Asset Management:

• Historical comparison tracking changes
• Maintenance planning and scheduling
• Capital planning for replacements
• Energy audit baseline establishment
• Emergency response preparation

Drone Roof Inspection Cost: Investment vs. Return

Understanding drone inspection pricing requires comparing traditional methods, evaluating value delivered, and considering long-term benefits beyond immediate costs.

Traditional Inspection Costs

Manual roof inspections typically charge:

• Residential properties: $300-$600
• Commercial buildings: $500-$2,000
• Industrial facilities: $1,000-$5,000

These prices include:

• Inspector time on-site (2-4 hours)
• Safety equipment and insurance
• Basic photo documentation
• Written report with findings
• Travel and administrative costs

Hidden costs often emerge:

• Landscape damage from ladder placement
• Potential roof damage from walking
• Limited inspection scope due to access
• Weather delays requiring rescheduling
• Incomplete findings missing hidden damage

Drone Inspection Pricing Structure

Professional drone inspections cost:

• Residential properties: $200-$400
• Small commercial (under 10,000 sq ft): $400-$800
• Medium commercial (10,000-50,000 sq ft): $800-$1,500
• Large commercial (over 50,000 sq ft): $1,500-$3,000
• Thermal imaging add-on: $150-$300

Services typically include:

• Complete aerial imagery capture
• 3D model generation
• Comprehensive digital report
• Measurement documentation
• Cloud storage access
• Follow-up consultation

Value Proposition Analysis

Drone inspections deliver superior value through:

Time Savings:

• 1-2 hour inspection vs. 4-6 hours traditional
• Same-day reporting vs. 3-5 days
• No weather delays for light rain/wind
• Multiple roofs inspected per day
• Immediate insurance claim submission

Enhanced Accuracy:

• 40% more damage detected on average
• 98% measurement accuracy vs. 85-90%
• Complete documentation preventing disputes
• Historical comparison capability
• Predictive maintenance insights

Safety Benefits:

• Zero ladder-related accidents
• No roof walking damage
• Reduced liability exposure
• OSHA compliance advantages
• Lower insurance premiums

Real-World ROI Examples

Case studies demonstrate tangible returns:

Residential Example: $350 drone inspection identified hidden moisture damage Traditional inspection would have missed the problem Early detection prevented $12,000 interior damage ROI: 3,400% from prevented damage

Commercial Example: $1,200 thermal drone inspection of 30,000 sq ft building Discovered 20% of roof had moisture intrusion Targeted repair cost $45,000 vs. $150,000 full replacement Savings: $103,800 from accurate problem identification

Insurance Claim Example: $400 drone inspection after hailstorm Comprehensive documentation secured full replacement approval Traditional inspection resulted in 60% coverage for neighbor Additional recovery: $8,000 from better documentation

Safety Advantages and Risk Reduction

Roofing consistently ranks among America’s most dangerous occupations, with falls representing the leading cause of construction fatalities. Drone technology fundamentally transforms safety dynamics, eliminating most traditional inspection risks while improving workplace safety culture.

Traditional Inspection Hazards

Manual roof inspections expose workers to numerous dangers:

Fall Risks:

• Ladder accidents during access/egress
• Slip hazards on wet or moss-covered surfaces
• Trip dangers from obstacles and equipment
• Edge falls from unexpected drop-offs
• Structural failures of deteriorated decking

Statistics underscore these dangers:

• 33% of construction fatalities involve falls
• Ladder accidents cause 20,000 workplace injuries annually
• Average fall injury costs exceed $50,000
• Permanent disabilities affect 15% of fall victims
• OSHA violations for fall protection lead citations

Weather-Related Hazards:

• Wind gusts affecting balance
• Lightning strikes on elevated surfaces
• Heat exhaustion during summer inspections
• Ice hazards in winter conditions
• Sun exposure causing long-term health issues

Structural Dangers:

• Weak or rotted decking collapse
• Electrical hazards from service lines
• Chemical exposure from roofing materials
• Animal encounters (wasps, bees, birds)
• Asbestos exposure in older buildings

Drone Safety Advantages

Unmanned inspections eliminate human exposure:

• Inspector remains safely on ground
• No ladder setup or climbing required
• Zero roof surface contact
• Complete inspection from safe distances
• Emergency response unnecessary

This transformation yields measurable benefits:

• 100% reduction in inspection-related falls
• Decreased workers’ compensation claims
• Lower insurance premiums for contractors
• Reduced liability for property owners
• Improved OSHA compliance metrics

Operational Safety Benefits

Beyond individual safety, drones improve operational security:

Occupied Building Inspections:

• No disruption to business operations
• Eliminated liability for customer injuries
• Reduced noise and disturbance
• Maintained security for sensitive facilities
• Avoided contamination in food service areas

Hazardous Environment Assessment:

• Storm damage evaluation before human access
• Fire damage inspection without structural risks
• Chemical plant roofs without exposure
• Unstable structure assessment
• Contaminated area documentation

Commercial vs. Residential Applications

Drone technology serves both market segments but delivers distinct advantages based on property characteristics and owner priorities.

Residential Roof Inspections

Homeowners benefit from:

Comprehensive Documentation:

• Complete visual record for insurance
• Before/after comparisons for maintenance
• Evidence for warranty claims
• Property value documentation
• Historical timeline establishment

Cost-Effective Assessment:

• Affordable annual inspections
• Multi-property bundle discounts
• Shared costs for neighborhood groups
• Insurance premium reductions
• Prevented damage savings

Convenience Factors:

• No yard damage from equipment
• Pet-friendly (no strangers on property)
• Quick completion minimizing disruption
• Weekend and evening availability
• Remote property monitoring

Enhanced Communication:

• Visual reports easily understood
• 3D models showing problem areas
• Shareable links for family discussion
• Contractor bid comparison tools
• Progress tracking during repairs

Commercial Roofing Inspections

Businesses leverage additional capabilities:

Portfolio Management:

• Multiple property assessment efficiency
• Standardized reporting across locations
• Centralized data management
• Capital planning support
• Maintenance optimization

Compliance Documentation:

• Regulatory requirement satisfaction
• Warranty compliance verification
• Insurance audit preparation
• Safety program documentation
• Environmental monitoring

Operational Continuity:

• Zero business disruption
• Off-hours inspection capability
• Rapid emergency response
• Minimal security concerns
• Reduced liability exposure

Financial Planning:

• Accurate budget forecasting
• Depreciation schedule validation
• Tax documentation support
• Energy audit integration
• Lease negotiation data

Large-Scale Advantages

Industrial and institutional properties maximize drone benefits:

• Inspection time reduced from days to hours
• Access to dangerous or restricted areas
• Complete documentation despite size
• Phased replacement planning tools
• Predictive maintenance modeling

Our largest commercial drone inspection covered 2.8 million square feet across multiple buildings in one day—physically impossible with traditional methods.

Future Technologies on the Horizon

The roofing industry’s technological evolution accelerates as emerging innovations promise even greater capabilities within the next 2-3 years.

Autonomous Inspection Systems

Fully automated inspections approach reality:

Drone-in-a-Box Solutions:

• Permanent on-site drone stations
• Scheduled automatic inspections
• Self-charging and maintenance
• Cloud-based monitoring
• Alert generation for detected issues

Swarm Technology:

• Multiple drones inspecting simultaneously
• Coordinated coverage patterns
• Reduced inspection time 80%
• Redundant data capture
• Large facility specialization

Indoor/Outdoor Capable Drones:

• Seamless transition between environments
• Attic and interior inspection capability
• Confined space navigation
• Complete building envelope assessment
• Integrated structural evaluation

Advanced Sensor Integration

Next-generation sensors expand detection capabilities:

Hyperspectral Imaging:

• Material composition analysis
• Chemical degradation detection
• Biological growth identification
• Coating condition assessment
• Environmental damage evaluation

Acoustic Sensors:

• Leak detection through sound
• Structural movement monitoring
• Wildlife intrusion identification
• Wind damage assessment
• Vibration analysis

Gas Detection:

• Moisture vapor measurement
• VOC emission monitoring
• Mold risk assessment
• Indoor air quality correlation
• Insulation degradation detection

AI Evolution

Machine learning capabilities continue advancing:

Predictive Failure Modeling:

• 5-10 year condition forecasting
• Optimized replacement timing
• Weather event survival probability
• Cost-optimized maintenance scheduling
• Climate change impact modeling

Augmented Reality Integration:

• Real-time damage overlay during inspection
• Historical comparison visualization
• Repair instruction projection
• Remote expert consultation
• Training and certification tools

Natural Language Reporting:

• Conversational report generation
• Voice-controlled inspection navigation
• Automated client communication
• Multi-language support
• Accessibility improvements

Implementation Strategies for Property Owners

Maximizing drone inspection benefits requires strategic implementation aligned with property management objectives.

Inspection Frequency Optimization

Different properties require varied inspection schedules:

Residential Properties:

• Annual inspections for homes 10+ years old
• Bi-annual for 5-10 year old roofs
• Post-storm assessment after severe weather
• Pre-listing inspection for sales
• Spring/fall checks in severe climates

Commercial Properties:

• Quarterly inspections for critical facilities
• Semi-annual for standard commercial
• Monthly during warranty periods
• After any rooftop work
• Before lease renewals

Documentation Best Practices

Organize inspection data for maximum value:

• Create digital asset folders by property
• Maintain chronological inspection records
• Tag issues for tracking over time
• Share access with relevant parties
• Backup data in multiple locations

Use inspection data strategically:

• Insurance claim preparation
• Warranty claim documentation
• Contractor bid packages
• Budget planning support
• Tax record maintenance

Contractor Selection Criteria

Choose qualified drone inspection providers:

Essential Qualifications:

• FAA Part 107 certified pilots
• Adequate insurance coverage ($1M minimum)
• Professional-grade equipment
• Thermal imaging capability
• Established reporting platforms

Experience Indicators:

• Portfolio of similar properties
• References from recent clients
• Sample reports for review
• Industry association memberships
• Continuing education commitment

Red Flags to Avoid:

• Hobbyist equipment or operators
• No insurance documentation
• Cash-only operations
• Immediate repair pressure
• Unusually low pricing

Regional Considerations for South Carolina

The Southeast’s unique climate and regulations affect drone inspection implementation across South Carolina and Georgia.

Weather Windows

Optimal inspection conditions vary seasonally:

Spring (March-May):

• Post-winter damage assessment
• Pre-hurricane season preparation
• Moderate temperatures ideal for thermal
• Lower wind speeds improve stability
• Longer daylight hours

Summer (June-August):

• Morning flights avoiding afternoon storms
• Extreme heat affecting thermal imaging
• Hurricane preparation inspections
• Dense foliage potentially obscuring views
• High humidity impacting equipment

Fall (September-November):

• Post-hurricane damage documentation
• Ideal thermal imaging conditions
• Leaf drop improving visibility
• Pre-winter preparation assessment
• Insurance renewal documentation

Winter (December-February):

• Best visibility with minimal foliage
• Cold temperatures enhancing thermal contrast
• Shorter daylight requiring planning
• Rare freeze damage assessment
• Year-end tax documentation

Regulatory Environment

South Carolina drone operations must comply with:

Federal Regulations:

• FAA Part 107 commercial operations
• Airspace restrictions near airports
• Military base flight prohibitions
• National park limitations
• Privacy protection requirements

State Considerations:

• Property owner permission requirements
• Professional licensing integration
• Insurance requirements for contractors
• Municipal permit potential
• HOA notification protocols

Local Challenges:

• Charleston historic district considerations
• Coastal wind patterns
• Salt air equipment impacts
• Hurricane season scheduling
• Tourist area restrictions

The ROI of Modern Roof Management

Drone inspections represent one component of comprehensive roof asset management delivering measurable returns through prevented failures, optimized maintenance, and extended service life.

Quantifiable Benefits

Organizations tracking drone inspection ROI report:

Cost Reductions:

• 30% decrease in emergency repairs
• 25% reduction in maintenance costs
• 40% lower inspection expenses
• 15% insurance premium savings
• 20% warranty claim improvement

Lifespan Extensions:

• 3-5 years average life extension
• 50% reduction in premature replacements
• 60% decrease in consequential damage
• 35% improvement in energy efficiency
• 45% better capital planning accuracy

Operational Improvements:

• 70% faster insurance settlements
• 80% reduction in inspection delays
• 90% improvement in documentation
• 65% decrease in contractor disputes
• 55% better stakeholder communication

Case Study: Portfolio Implementation

A regional property management company managing 50 commercial properties implemented comprehensive drone inspections:

Year 1: Baseline inspections identifying $2.8M in deferred maintenance Year 2: Targeted repairs preventing 12 roof failures Year 3: Insurance premiums reduced $180,000 annually Year 4: Energy improvements saving $320,000 Year 5: Portfolio value increased $4.2M from condition improvements

Total investment: $150,000 Five-year return: $3,470,000 ROI: 2,213%

Choosing Technology-Forward Contractors

The roofing industry’s technological divide grows wider as innovative contractors embrace modern tools while others resist change. Selecting technology-forward contractors ensures access to best-in-class capabilities and future-ready services.

Evaluation Criteria

Assess contractor technology adoption:

Current Capabilities:

• Active drone inspection program
• Thermal imaging equipment
• 3D modeling software
• Cloud-based reporting
• Mobile field applications

Innovation Indicators:

• Technology investment trajectory
• Staff training programs
• Industry conference participation
• Vendor partnerships
• Early adopter history

Integration Excellence:

• Seamless workflow incorporation
• Customer portal access
• Real-time communication
• Digital documentation
• Automated scheduling

Partnership Approach

Technology-forward contractors offer:

• Predictive maintenance programs
• Energy optimization services
• Warranty management systems
• Emergency response protocols
• Continuous improvement commitment

These partnerships transcend traditional contractor relationships, becoming strategic asset management alliances delivering long-term value.

---

Ready to experience the future of roof inspections? Contact Hixon’s Roofing at (843) 816-0679 to schedule your comprehensive drone inspection. Our FAA-certified pilots, thermal imaging capabilities, and 40 years of roofing expertise combine cutting-edge technology with proven experience. From residential properties to large commercial facilities, we deliver the accurate assessments, detailed documentation, and actionable insights modern property owners demand.

Since 1984, Hixon’s Roofing has evolved with the industry, adopting technologies that deliver superior outcomes for our clients. Our investment in drone inspection capabilities, thermal imaging systems, and AI-powered analysis ensures South Carolina property owners receive the most comprehensive roof assessments available. When accuracy, safety, and efficiency matter, trust the contractor embracing tomorrow’s solutions today.