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Director Brain Computer Interface Jobs in Texas (NOW HIRING)

We work to shape the future of brain-computer interface (BCI) technology through the planning, launch, and execution of groundbreaking human clinical trials. Our team is built on a foundation of ...

Staff Augmentation (Contract, Contract-to-Hire, Direct Hire); Bulk Buy Staff Augmentation; Offshore ... You may have a B.S in Computer Science or a related field, but more importantly, you are ...

Senior UI Developer

Austin, TX · On-site

$59.50 - $77/hr

Bachelor Degree in Engineering/Computer Science/Information Technology or equivalent experience ... Direct: (732) 328-8980 Email: ganesh(@)tricolor.com 100 Franklin Square Drive #207, Somerset, NJ ...

Interface Analyst Senior

Irving, TX · On-site

$84K - $111K/yr

With minimum direct supervision, the Interface Analyst Senior is responsible for taking customer ... Bachelor's degree in Information Systems, Computer Science, Computer Applications, Electrical ...

Bachelor's degree in design, human-computer interaction (HCI), or 3-5 years equivalent professional ... direct your successes within the organization. In addition to a very competitive salary, we offer a ...

Bachelor's degree in design, human-computer interaction (HCI), or 3-5 years equivalent professional ... direct your successes within the organization. In addition to a very competitive salary, we offer a ...

Bachelor's degree in design, human-computer interaction (HCI), or 3-5 years equivalent professional ... direct your successes within the organization. In addition to a very competitive salary, we offer a ...

The Brain Interfaces Software Team is responsible for the end to end software stack that manages ... Evidence of exceptional ability in engineering, mathematics, or computer science * Strong ...

The Brain Interfaces Software Team is responsible for the end to end software stack that manages ... Evidence of exceptional ability in engineering, mathematics, or computer science * Strong ...

Software Engineer, Implant

Austin, TX · On-site

$119K - $200K/yr

The Brain Interfaces Software Team is responsible for the end to end software stack that manages ... Evidence of exceptional ability in engineering, mathematics, or computer science * Strong ...

Manufacturing Engineer

Austin, TX · On-site

$83K - $139K/yr

The Brain Interfaces Mechanical Engineering team is responsible for the mechanical and ... Detailed designing of 3D CAD and 2D drawings with a heavy focus on DFX, and integration onto the ...

We operate with the heart, creativity, and energy of a startup, and with the brain, muscles, and ... Bachelor's or master's in computer science or business management or equivalent degrees * 10 or ...

Manufacturing Engineer

Austin, TX

$72K - $93K/yr

The Brain Interfaces Mechanical Engineering team is responsible for the mechanical and ... Detailed designing of 3D CAD and 2D drawings with a heavy focus on DFX, and integration onto the ...

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Director Brain Computer Interface information

What are the key skills and qualifications needed to thrive as a Director of Brain-Computer Interface, and why are they important?

To thrive as a Director of Brain-Computer Interface, you need advanced expertise in neuroscience, biomedical engineering, and computer science, typically supported by a PhD or relevant graduate degree. Familiarity with neural signal processing, machine learning algorithms, regulatory compliance, and BCI development platforms is crucial, along with experience in managing multidisciplinary research teams. Exceptional leadership, strategic vision, and strong communication skills help drive innovation and foster collaboration across diverse technical and clinical stakeholders. These competencies are vital for guiding the successful development, implementation, and commercialization of cutting-edge BCI technologies.

What does a Director of Brain-Computer Interface do?

A Director of Brain-Computer Interface (BCI) oversees the development, research, and implementation of technologies that enable direct communication between the brain and external devices. This role typically involves leading multidisciplinary teams, setting strategic direction for BCI projects, and ensuring compliance with ethical and regulatory standards. Directors often collaborate with neuroscientists, engineers, and clinicians to advance BCI technology for medical, research, or commercial applications. They are responsible for driving innovation while managing budgets, timelines, and stakeholder expectations.

How does a Director of Brain Computer Interface typically collaborate with cross-functional teams to drive innovation?

A Director of Brain Computer Interface often works closely with neuroscientists, software engineers, hardware designers, and clinical experts to lead the development of advanced BCI solutions. They facilitate communication between technical and non-technical stakeholders, ensuring that project objectives align with both scientific goals and user needs. Regular meetings, collaborative research, and iterative product development are key aspects of this collaboration, fostering an environment where interdisciplinary expertise can drive breakthroughs in brain-computer technology.
What are the most commonly searched types of Brain Computer Interface jobs in Texas? The most popular types of Brain Computer Interface jobs in Texas are:
What job categories do people searching Director Brain Computer Interface jobs in Texas look for? The top searched job categories for Director Brain Computer Interface jobs in Texas are:
What cities in Texas are hiring for Director Brain Computer Interface jobs? Cities in Texas with the most Director Brain Computer Interface job openings:
Clinical Scientist

Other

Re-posted 13 days ago


Job description

Team Description:

The Neuralink Clinical team is at the heart of an ecosystem that merges neuroscience, engineering, and medicine. We work to shape the future of brain-computer interface (BCI) technology through the planning, launch, and execution of groundbreaking human clinical trials. Our team is built on a foundation of excellence, aiming to uphold the highest standards of Good Clinical Practice (GCP) while redefining what's possible and revolutionizing the way people interact with technology. Through strict compliance with ethical and regulatory protocols, we focus on ensuring the well-being of our trial participants while advancing the frontiers of neuroscience! Every day will bring fresh challenges and unprecedented opportunities to pioneer new approaches in the pursuit of our mission. From navigating regulatory pathways, designing trial protocols and documentation, and executing clinical trials, our team is instrumental in translating Neuralink's BCI technology for use in people!

Job Description and Responsibilities:

As a Clinical Scientist I, you will support the development, design, and execution of Neuralink's clinical evidence strategy. This role focuses on translating product and research objectives into clinical study designs, supporting data analysis, and ensuring scientific rigor across clinical programs.

This individual is  a self-driven and analytically strong individual who can contribute to clinical strategy while executing with precision. The ideal contributor is detail-oriented, collaborative, and comfortable working in a fast-paced, multidisciplinary environment.

In this role, you will:

  • Support the design and development of clinical study protocols, including endpoints, inclusion/exclusion criteria, and statistical considerations
  • Contribute to clinical strategy by translating research and product goals into evidence-generating study plans
  • Partner with other team members to support execution of clinical studies and ensure alignment between scientific intent and operational delivery
  • Build and maintain strong working relationships with internal teams, investigators, and external partners
  • Support preparation of study-related documents, including protocols, investigator brochures, clinical study reports, and regulatory submissions
  • Contribute to EDC and CRF design by ensuring alignment between protocol objectives, endpoints, and data collection strategy
  • Translate clinical and scientific requirements into structured, high-quality data capture and validation approaches
  • Assist in data review, analysis, and interpretation to evaluate safety and performance outcomes
  • Contribute to development of abstracts, presentations, and publications
  • Support interactions with ethics committees (e.g., IRB, RECs) and regulatory bodies as needed
  • Ensure scientific and clinical activities are conducted in compliance with Good Clinical Practice (GCP), applicable regulations, and internal SOPs
  • Identify data trends, inconsistencies, or risks and proactively communicate findings to the broader team

Required Qualifications:

  • Familiarity with statistical methods or programming (e.g., Python, R)
  • 5+ years of experience in clinical research or scientific roles within medical devices or related fields
  • Strong analytical and problem-solving skills with the ability to interpret complex data
  • Familiarity with clinical study design, endpoints, and data analysis concepts
  • Working knowledge of Good Clinical Practice (GCP) and basic regulatory requirements (e.g., ISO 14155)
  • Ability to work cross-functionally with clinicians, engineers, and operational teams
  • Strong written and verbal communication skills, particularly in scientific and technical contexts
  • High attention to detail and ability to manage multiple priorities

Preferred Qualifications:

  • Experience with neurological, neurosurgical, or implantable medical device studies
  • Experience supporting protocol development, data analysis, or clinical reporting
  • Publications or scientific presentations in biomedical engineering or neuroscience
  • PhD  in neuroscience, biomedical engineering, or a related field

Additional Requirements and Competencies: 

  • Willingness to travel (up to ~20-30%) to support site visits, investigator meetings, and study activities
  • Strong organizational and documentation skills
  • Ability to work independently while collaborating closely with cross-functional teams
  • Adaptability and comfort in a fast-paced, high-growth environment
  • Commitment to scientific rigor, patient safety, and high-quality evidence generation