Engineering Capabilities

Civil engineering first.
Systems thinking throughout.

My core practice is civil infrastructure: leading multidisciplinary design, solving site and roadway constraints, and helping agencies make defensible capital and maintenance decisions. Data, GIS, and software extend that work.

12+Years applying these capabilities to real projects
01 / Core practice

Civil engineering
capabilities

The work I lead, review, design, and defend across project phases.

01

Project & Design Management

Design-build delivery, multidisciplinary coordination, stakeholder reviews, scope and risk management, budgets, specifications, RFP review, and client-facing technical communication.

Project leadership / DOR / CIP programs
02

Site, Roadway & Drainage Design

Grading, alignments, roadway geometry, drainage, culverts, riprap, paving, roadside safety, guardrail, earthwork, quantity takeoffs, and constructability review.

Civil 3D / Hydraflow / InfoDrainage
03

Pavement & Asset Management

Pavement design and rehabilitation, condition assessment, performance modeling, maintenance strategies, multi-asset programs, budget scenarios, and Capital Improvement Plans.

PAVER / StreetSaver / AgileAssets
04

Construction & Technical Delivery

Design and material submittal review, CSI and UFGS specifications, construction-phase support, site visits, as-builts, field coordination, pricing support, and compliance.

Procore / Bluebeam / SpecIntact
02 / Engineering workflow

From condition
to decision.

A connected practice across field evidence, design, analysis, and delivery.

01

Investigate

Field review, inspection, existing-condition research, inventory reconciliation, and quality control.

02

Design

Geometry, grading, drainage, pavement, roadside safety, specifications, and multidisciplinary coordination.

03

Analyze

Performance models, regression, Bayesian and stochastic methods, time series, budgets, and alternatives.

04

Deliver

Plans, reports, dashboards, estimates, CIPs, stakeholder presentations, and construction support.

03 / Supporting systems

Technology that
strengthens delivery.

Each capability is organized by the engineering purpose it serves and the decisions it helps improve.

Spatial intelligence

GIS & Geospatial

ArcGIS Pro, ArcMap, ArcGIS Online, ArcPy, GeoPandas, QGIS, shapefiles, linear referencing, cartographic automation

Engineering computation

Programming & Data

Python, SQL, PostgreSQL, Excel, APIs, XML and JSON processing, data conversion, automation, linear algebra, calculus

Decision communication

Reporting & Visualization

Power BI, Tableau, Jasper Server, Esri dashboards, technical reporting, analytical storytelling, stakeholder presentations

Operational platforms

Asset Management Systems

PAVER, StreetSaver, AgileAssets, Cartegraph, Lucity, ESA, condition forecasting, maintenance decision trees

Tool building

Web Applications

Django, RESTful APIs, database-backed applications, workflow automation, Linux deployment, Git, Docker, cloud fundamentals

Professional practice

Leadership & Collaboration

Communication, analytical problem-solving, teamwork, mentoring, client-focused delivery, proposal support, budget planning

Integrated practice

Engineering judgment sets the direction.
Systems make it scalable.

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