Skip to the main content.

David Glass

David Glass is the CEO and cofounder of LHP Engineering Solutions, headquartered in Columbus, IN.David received degrees in Electrical Engineering and Administrative Engineering from Tri-State University while playing baseball. David established his career at Cummins, Inc. working as an engineering manager focused on building the Core Electronics Controls organization implementing Model Based Design, Product Line Strategy and Auto Code Generation for embedded diesel engine controls.In 2001, David initiated an engineering services startup and technology integration company, LHP Engineering Solutions. The company offers engineering solutions and integrated technology solutions that help stream lineengineering efforts for implementing complex embedded controls applications such as engine controls and autonomous vehicles.In 2008, David established a joint venture product focused company, LHP Telematics, which is now a JV with John Deere, offering telematics and cloud baseddata solutions to various transportation and heavy equipment companies throughout North America.David leverages partnerships with major technology partners including National Instruments, PTC, Microsoft and Hortonworks to provide integrated technology solutions for a number ofindustry applications.David is a member of SAE and IEEE and holds Board positions at Trine University, Indiana University Purdue University Indianapolis (IUPUI) and Indiana based Energy Systems Network Group. He also participates in 10xCEO which is a CEO collaboration basedorganization.

5 min read

What are Streetlamp Situational Awareness Systems?

6 min read

How HiveMQ and MQTT Support USCAR

7 min read

What is a Cybersecurity Management System?

6 min read

Top 5 Takeaways from ASPICE 4.0 Assessment

5 min read

What Is Event-Driven Logic?

5 min read

AUTOSAR, is it worth it?

4 min read

What is ISO 26262 Functional Safety in Transport Vehicles?

6 min read

The Power of Real-Time Alerting

6 min read

What is AUTOSAR Fault Detection?

6 min read

Understanding AUTOSAR’s Basic Software Layer

5 min read

The Role of ASPICE in Systems and Software Development

8 min read

Electric Vehicle Testing Equipment

7 min read

What is Electric Vehicle Functional Safety Testing?

6 min read

Simulation and HIL Testing for Rapid Development

5 min read

AUTOSAR Acceptance Tests

5 min read

AUTOSAR Feasibility and Producibility

5 min read

AUTOSAR Modularity and Configurability

5 min read

Implementing AUTOSAR and Functional Safety

6 min read

AUTOSAR From the Automotive Industry’s Perspective

6 min read

How to Transform Your Engineering Organization with LHP

7 min read

Integrating Today’s Top Automotive Technology

16 min read

What Are the Automotive Cybersecurity Processes?

6 min read

How to Holistically Address Functional Safety

8 min read

Why is Safety at the Core of Software-Defined Vehicles?

7 min read

How to Build Trust in the Autonomous Driving Industry

9 min read

How to Maximize Your Investment in Cybersecurity

11 min read

The Right Level of Attention for Automotive Cybersecurity

9 min read

An Introduction to Project-Dependent Safety Management

6 min read

What is Tailoring in Functional Safety?

6 min read

What Are the Different Electric Vehicle Standards?

7 min read

What is Automated Test Equipment?

7 min read

What is HIL Testing?

7 min read

What is the Future of Autonomous Vehicles?

9 min read

What is Competence Management in Functional Safety?

8 min read

What is Electric Vehicle Telematics?

9 min read

How Do You Build a Safety Culture for Your Organization?

7 min read

What are Electric Vehicle Subsystems and Their Interactions?

6 min read

What is Electric Vehicle Testing?

7 min read

How to Get Your Organization Started with Master Data

8 min read

How Does SOTIF Address Safety Design Vulnerabilities?

7 min read

What is FMEDA?

5 min read

What Are Automotive Cybersecurity Contingency Plans?

6 min read

How Do Data Driven Insights Inform Data Optimization?

8 min read

How is Automotive Cybersecurity Controlled?

6 min read

Why is Cybersecurity Important for Autonomous Vehicles?

6 min read

What are the Advantages of IIoT in the Automotive Industry

9 min read

What is Automotive Cybersecurity?

4 min read

ISO 26262 Compliant vs. ISO 26262 Certified

6 min read

What are the SOTIF Scenarios

6 min read

Why is Data-driven User Experience important in EV technology

8 min read

How Data Analytics Enables Growth for EV Manufacturers

8 min read

Effective Test Cases and How Inputs Influence Decisions

7 min read

Writing High-Quality Test Scripts: Taming the Chaos

9 min read

What is the scope of SOTIF?

7 min read

What is SOTIF?

9 min read

How to Write Requirements for Functional Safety

6 min read

Framework for Automotive Cybersecurity

7 min read

Cybersecurity and the Automotive Supply Chain

6 min read

Automotive Cybersecurity and Trustworthiness

8 min read

How does Probability factor into a Safety Analysis?

7 min read

What is Functional Safety Management in Automotive?

8 min read

What is the Blueprint for Advancing Autonomous Mobility?

8 min read

What will make self-driving cars safe and practical?

11 min read

What the future holds for ADAS control systems

5 min read

New Developments in Automotive Autonomy

4 min read

Benefits of Investing in Team Training

5 min read

Transformational Changes in Automotive Testing

7 min read

Guest Blog: Training for a dynamic future

7 min read

Guest Blog: Thriving in the autonomous vehicle marketplace

4 min read

How to Ensure Safety in ADAS Design and Verification