Below is a brief summary. Please check the full solicitation before applying (link in resources section).

Executive Summary:

NASA’s Science Mission Directorate is awarding up to $3 million per award to for-profit U.S. companies to conduct design studies—and optional prototyping—of advanced robotic surface and aerial mobility systems capable of transporting and deploying science payloads on the Martian surface. Awards are issued as firm-fixed-price contracts, with proposals due March 31, 2026.

How much funding is available?

NASA will make awards under two tracks:

• Track A (Concept Study): Up to $1,000,000

• Track B (Concept Study + Physical Testing): Up to $3,000,000

All projects must be completed within a 12-month performance period.

What could I use the funding for?

I. Scope of the Program

1.1 Motivation for Industry Robotic Studies

NASA’s Mars Exploration Program recognizes the rapid innovation underway in the U.S. commercial robotics and autonomous systems sector, particularly in scalable surface and aerial mobility platforms with the ability to carry and deliver payloads while operating across complex and varied terrain. Many of these advancements, originally developed for terrestrial or lunar applications, may be well suited to the unique challenges of the Martian surface.

Through this program element, NASA solicits proposals from U.S. industry to conduct design studies of advanced robotic surface and aerial mobility systems with payload transportation and deployment capability for Mars surface operations, and, where applicable, early-stage prototyping of hardware for the same purpose.

These studies will inform the future development of procurable robotic mobility systems that are Mars-environment capable and able to traverse challenging Mars terrain to deliver science payloads across the Martian surface.

This opportunity seeks participation from a broad range of providers--from established space hardware developers to terrestrial robotics companies with potential to enter the space sector--to explore mobility solutions that are both scalable and adaptable to diverse mission scenarios. The goal of the program element is to identify the level of development needed for commercial robotic mobility systems developed for terrestrial and lunar use that could then operate and traverse realistic Martian environments while enabling cost-effective transportation and/or deployment of science payloads. In addition, the program aims to identify key capability gaps and to help advance the broader landscape of robotic exploration at Mars. Proposals are encouraged to articulate how their proposed platform could enhance overall science return.

1.1 Motivation for Industry Robotic Studies

NASA’s Mars Exploration Program recognizes the rapid innovation underway in the U.S. commercial robotics and autonomous systems sector, particularly in scalable surface and aerial mobility platforms with the ability to carry and deliver payloads while operating across complex and varied terrain. Many of these advancements, originally developed for terrestrial or lunar applications, may be well suited to the unique challenges of the Martian surface.

1.2 Considerations of Concept Value

NASA is seeking concepts for surface and aerial mobility systems that maximize, to the extent possible, the following areas of interest. NASA recognizes that not all metrics can be optimized but expects successful concepts to demonstrate improvement in one or more of these areas:

1. Mars Environmental Operability: Demonstrated ability of the proposed system to function in the Martian environment, including tolerance for dust, temperature extremes, communication constraints, and other environmental conditions expected during surface operations.

2. Payload Transportation and/or Deployment and Accommodation: Capacity to reliably transport, carry, deploy, or manage payloads, including breadth of science investigation the system can address (see PIP A2.2 for more information).

3. Mobility Capability: Ability to traverse realistic Martian terrains with meaningful range, endurance, and robustness -- e.g., cratered, rocky, or sandy regions for surface vehicles, as well as elevation/altitude range for aerial vehicles (see PIP A2.2 for more information).

4. Technical Innovation and Risk Reduction: Novel design approaches, technology advancements, or subsystem innovations that reduce operational risk or expand feasible mission scenarios.

2.1 Program Exclusions

This program only addresses in-situ mobility. Topics related to transportation from Earth to Mars, orbiters, science instrument development, initial Entry, Descent, Landing (EDL), and subsurface access are not within scope of this call.

Are there any additional benefits I would receive?

Beyond the award funding itself, NSF awards can provide meaningful indirect value because they:

• Signal external validation through NSF’s competitive merit review process (often helpful for partnerships and credibility).

• Support dissemination of findings and products (a built-in emphasis of the program), which can increase visibility across education and research communities.

• Enable development of reusable tools, frameworks, curricula, assessments, and methods that can strengthen follow-on funding competitiveness (the program explicitly supports work that produces “new tools and frameworks” and plans for dissemination).

What is the timeline to apply and when would I receive funding?

• Optional Pre-Proposal Conference: February 4, 2026

• Proposal Deadline: March 31, 2026

• Anticipated Project Start: ~6 months after proposal submission

• Project Duration: Up to 12 months

Where does this funding come from?

Funding is provided by NASA’s Science Mission Directorate through the Mars Exploration Program, under the ROSES-2025 solicitation.

Who is eligible to apply?

• For-profit U.S. organizations of any size may apply as prime contractors

• Universities, nonprofits, and other organizations may participate as subcontractors or collaborators

• NASA civil servants, FFRDCs, and JPL may not participate as proposers or subcontractors

There is no limit on the number of proposals a company may submit.

What companies and projects are likely to win?

NASA will evaluate proposals based on:

• Technical merit and innovation of the mobility system concept

• Relevance to Mars Exploration Program objectives

• Ability to operate in realistic Martian environmental conditions

• Strength and experience of the proposing team

• Cost and schedule realism within the 12-month period

Special consideration is given to systems that enhance science payload transport and overall science return.

Are there any restrictions I should know about?

• Awards are issued as firm-fixed-price contracts, not grants

• All work must be completed within 12 months

• Budget information must follow strict ROSES redaction and formatting rules

• Certain NASA facilities may be used for testing, but NASA personnel may not be project team members

• Organizational conflicts of interest must be disclosed and mitigated

How long will it take me to prepare an application?

Without BW&CO’s Assistance, preparing a fully compliant and compelling proposal will likely take 150-200 hours.

How can BW&CO help?

Our team specializes in complex federal R&D proposals and can:

• Triple your likelihood of success through proven strategy and insider-aligned proposal development

• Reduce your time spent on the proposal by 50–80%, letting your team focus on technology and operations

• Ensure you are targeting the best opportunity for your project and positioning your company for long-term growth under Federal & State R&D Initiatives.

How much would BW&CO Charge?

For Full Support, $15,000 Initial Fee + 5% Success Fee

Fractional support is $300 per hour.

For startups, we offer a discounted rate of $250 per hour to make top-tier consulting more accessible while maintaining the same level of strategic guidance and proposal quality.

Additional Resources

See the solicitation here.