Project Controls,
AI-Driven Automation
& Forensic Scheduling.
We plan, monitor, and control construction projects — applying AI and automation to eliminate inefficiency and improve decision-making. When delays require forensic analysis, we deliver evidence-based EOT claims aligned with the SCL Protocol and AACE 29R-03.
Control
Programme & Schedule
Visibility
Real-Time Reporting
Automation
AI-Driven Efficiency
Expertise
Forensic When Required
What We Do
Four Capabilities.
One Integrated Approach.
From programme development and controls through to AI-driven automation and forensic delay analysis — across the full project lifecycle.
Project Planning
Contractually compliant programme development from tender through contract award. We build schedules that establish an accurate, defensible baseline — protecting your programme before work begins.
Deliverables
- Tender and contract baseline programmes
- Resource-loaded schedules
- Cashflow and S-curve integration
- Logic-linked, constraint-free networks
Project Controls & Monitoring
Structured progress tracking, schedule updates, and reporting systems that keep teams informed and in control. We identify float erosion and critical path shifts before they become problems.
Deliverables
- Monthly schedule update reports
- Float consumption and trend analysis
- Power BI progress dashboards
- Earned value performance metrics
AI Construction Automation
Practical AI and automation applied to planning and reporting workflows. Reduce manual effort, improve consistency, and surface insights from your project data — without changing your existing tools.
Deliverables
- Automated progress report generation
- AI-assisted schedule analysis
- Data processing and BI integration
- Workflow automation in P6, MSP, Excel
Claims & Forensic Scheduling
When delays occur and entitlement needs to be established, we provide forensic delay analysis and EOT claim preparation using methods recognised by the SCL Protocol and AACE 29R-03.
Deliverables
- Forensic delay analysis report
- EOT claim preparation and submission
- Expert witness report support
- Concurrency and causation analysis
AI in Construction
AI-Driven
Construction
Automation
We apply AI and automation to remove inefficiency from project controls workflows. Not theoretical. Not a new platform. Practical automation that works inside your existing tools — reducing manual effort, improving accuracy, and giving teams the visibility they need to make faster decisions.
Automated Reporting Workflows
Eliminate hours of manual effort by automating the generation of progress reports, schedule narratives, and status updates directly from P6 and MSP data. Consistent, accurate outputs — produced in minutes.
- Monthly progress reports generated automatically
- Narrative summaries produced from schedule data
- Consistent format, reduced human error
AI-Assisted Schedule Analysis
Apply intelligent analysis to detect delay trends, flag variance from baseline, and identify critical path risks before they escalate. Pattern recognition across programme versions to surface insights that would take days to find manually.
- Automated baseline vs. actual comparison
- Critical path risk scoring and flagging
- Early warning trend detection
Data Processing & Integration
Automate the extraction, cleaning, and structuring of project data from multiple sources — feeding Power BI dashboards, commercial reports, and management summaries without manual intervention.
- Automated data extraction from P6, MSP, Excel
- Structured feeds into Power BI dashboards
- Reduction in manual data preparation
Decision Support & Visibility
Provide project leadership with real-time, AI-enhanced visibility of programme performance, cost exposure, and schedule risk — turning raw project data into actionable intelligence.
- Real-time programme performance dashboards
- AI-driven completion forecasting
- Management-ready reporting without analyst bottleneck
Works within your existing tools
Our Approach
Evidence-Based Delay Analysis
We apply recognised forensic methodologies to quantify, analyse, and present delay in a form that withstands expert and legal scrutiny. Methodology selection is driven by the available records, contract type, and the nature of the dispute.
Window Analysis
Time Slice Analysis
AACE MIP 3.3 / SCL 4.6
The contemporaneous programme is divided into discrete time windows. Delays are identified and quantified within each window by comparing planned vs. actual progress on the critical path. This method is particularly effective where delays are complex, concurrent, or distributed across multiple periods.
Typical Applications
- Complex multi-party delay events
- Retrospective delay quantification
- Concurrent delay situations
- Long-duration projects with multiple delay events
Time Impact Analysis
TIA / Prospective Analysis
AACE 52R-06
Each delay event (or "fragnet") is modelled and inserted into the contemporaneous programme at the point the event occurred. The impact on the completion date is measured by comparing the pre-event and post-event programmes. Recognised under SCL Protocol as a preferred method for prospective EOT assessment.
Typical Applications
- Employer risk events and variations
- EOT applications during construction
- Prospective delay assessment
- SCL Protocol-aligned analysis
As-Built vs As-Planned
Impacted As-Planned
AACE MIP 3.1 / 3.2
The as-planned programme is compared against the as-built record to identify the variance between intended and actual progress. In the impacted variant, delay fragnets are applied to the as-planned programme to demonstrate their effect on the planned completion date. Suitable where contemporaneous records are limited.
Typical Applications
- Retrospective claims and disputes
- Where contemporaneous records are incomplete
- Establishing a factual delay record
- Supporting expert witness reports
Tools & Standards
Scheduling, Controls & Automation Tools
Primavera P6
CPM Scheduling
Microsoft Project
Programme Management
Power BI
Dashboard & Reporting
Excel + AI
Data Processing & Automation
Forensic Scheduling Standards
Delay and Disruption Protocol
2nd Edition — industry-standard guidance for delay and disruption analysis in construction contracts.
Forensic Schedule Analysis
Recommended practice defining accepted methodologies for delay quantification and forensic analysis.
Forensic standards apply to our Claims & Delay Analysis service. Project controls and AI automation work operates independently of these methodologies.