scoutmotors

Senior Specialist – NVH Simulations

Apply Now

At a Glance

Location
Charlotte, North Carolina, United States
Experience
8+ years
Compensation
. Initial base salary range = $130,000.00 - $160,000.00 Internal leveling code: IC8 N
Posted
2026-05-19T15:56:14-04:00

Key Requirements

Required Skills

MATLABPython

Domain Knowledge

  • Automation
  • Automotive
  • Engineering

Requirements

Strong foundation in vibration, acoustics, and structural dynamics with hands-on NVH CAE experience.

Experienced in full-vehicle NVH development within an OEM or Tier-1 environment.

Analytical, detail-oriented, and able to balance engineering depth with program timelines.

Effective communicator of complex technical insights across cross-functional teams.

Motivated to deliver high-quality vehicles and continuously improve engineering processes.

Here's what else you'll bring:

Compensation & Benefits

This is a full-time, exempt position eligible to receive a base salary and to participate in an annual performance bonus program. Final salary offered will be determined based on factors including but not limited to the candidate's skills and experience. The annual performance bonus program is preset and not candidate dependent.

Initial base salary range = $130,000.00 - $160,000.00

Internal leveling code: IC8

Notice to applicants:

To be considered for career opportunities at Scout Motors, applicants must be 18 years of age or older.

Residing in

Responsibilities

Become part of an iconic brand that is set to revolutionize the electric pick-up truck & rugged SUV marketplace by achieving the following:

Responsible for end-to-end NVH simulation development across component, subsystem, and full-vehicle levels, covering structure-borne and airborne noise.

Build and execute high-fidelity CAE models to predict vibration behavior, noise propagation, and overall acoustic performance.

Perform modal, frequency response, and transfer path analyses to identify dominant noise and vibration sources and paths.

Develop and apply structure-borne and airborne NVH models, including mounts, body structures, cavity acoustics, and acoustic treatments.

Define and cascade NVH targets from vehicle to subsystem and component levels.