Internship: 6G Wireless Communications Prototyping

📍 Job Overview

Job Title: Internship: 6G Wireless Communications Prototyping

Company: Emerson (National Instruments Dresden GmbH)

Location: Am Waldschlosschen 2, 01099 Dresden, Saxony, Germany

Job Type: Internship (Full-time)

Category: Engineering / Research & Development

Date Posted: May 04, 2026

Experience Level: Entry Level (Internship)

Remote Status: On-site

🚀 Role Summary

• This internship focuses on cutting-edge 6G wireless communications research, offering hands-on experience in prototyping advanced technologies.

• The role involves contributing to the investigation and development of novel wireless systems, including integrated sensing and communication (ISAC), non-terrestrial communication, and machine learning applications.

• Interns will have the opportunity to extend existing prototyping systems, conduct experiments, and implement demonstrators to validate new concepts for potential industry showcases.

• This position is ideal for students seeking practical application of their academic knowledge in a dynamic R&D environment, contributing to the future of wireless technology.

📝 Enhancement Note: The role is specifically an internship, requiring it to be a mandatory part of the student's studies. It is an on-site position in Dresden, Germany, with a duration of 6 months starting in October 2026. The focus on "prototyping" and "demonstrators" suggests a hands-on, experimental engineering role rather than pure theoretical research.

📈 Primary Responsibilities

• Actively participate in the research and development of 6G wireless communication systems, focusing on emerging technologies.

• Design, set up, and execute measurement campaigns and experiments to test and validate new wireless communication concepts.

• Develop and implement compelling demonstrators and Proof of Concepts (PoCs) for 6G systems, suitable for presentation at conferences and internal reviews.

• Extend and enhance existing prototyping systems with new functionalities, contributing to the overall research infrastructure.

• Collaborate with senior researchers and engineers to troubleshoot technical challenges, diagnose issues, and propose effective solutions.

• Document experimental procedures, results, and findings clearly and concisely for team review and knowledge sharing.

• Contribute to the creation of impactful communication materials, presenting findings and progress to mentors and team members.

📝 Enhancement Note: The responsibilities emphasize a blend of experimental work, system enhancement, and communication. The "implement demonstrators and Proof of Concepts" responsibility highlights the hands-on, applied nature of the internship, requiring the intern to translate research concepts into tangible prototypes.

🎓 Skills & Qualifications

Education:

• Currently enrolled in an academic program for Electrical Engineering, Computer Science, or a closely related field, with a specialization in communication systems.

• Must be at least in the 5th semester of study.

Experience:

• No specific prior professional experience is required, as this is an internship role focused on learning and development.

Required Skills:

• Proficiency in Linux operating systems.

• Strong programming skills in Python and C.

• Solid understanding of Digital Signal Processing (DSP) principles, with specific knowledge of techniques like OFDM.

• Foundational knowledge of Wireless Communications principles.

• Aptitude for hands-on experimentation and prototyping.

• Ability to work effectively in a group environment, demonstrating problem-solving skills.

• Self-organized and structured working style, capable of managing tasks independently.

Preferred Qualifications:

• Basic knowledge in Machine Learning.

• Basic knowledge in Integrated Sensing and Communication (ISAC).

• Basic knowledge in Non-terrestrial Communication systems.

📝 Enhancement Note: The educational requirement specifies being at least in the 5th semester, indicating a need for a solid theoretical foundation. The mandatory internship clause is critical for eligibility. The core technical skills are heavily weighted towards programming (Python, C), a key operating system (Linux), and fundamental communication principles (DSP, OFDM, Wireless Comms).

📊 Process & Systems Portfolio Requirements

Portfolio Essentials:

• While a formal portfolio is not explicitly required for an internship, candidates are encouraged to showcase projects demonstrating their programming skills (Python, C) and understanding of DSP or wireless concepts.

• Examples could include personal projects, university assignments, or contributions to open-source initiatives related to communication systems or embedded programming.

Process Documentation:

• Candidates should be prepared to discuss their approach to structured problem-solving and experimental design, reflecting a methodical process.

• Familiarity with documenting code, experiments, and results is advantageous.

📝 Enhancement Note: For an internship, the focus on a "portfolio" is less about formal documentation and more about demonstrating practical application of required skills through academic projects or personal initiatives. The emphasis is on the potential to follow structured processes and document work.

💵 Compensation & Benefits

Salary Range:

• As this is an internship position, compensation is typically structured as a monthly stipend. Based on industry standards for technical internships in Germany, especially in R&D roles requiring specialized skills, a range of €1,000 - €1,500 per month is a reasonable estimate. This can vary based on the specific semester of study and the company's compensation policy for interns.

Benefits:

• Fair Compensation (Monthly stipend)

• Flexible Working Hours

• Structured Onboarding Program

• Dedicated Support from Professional Mentors

• Access to cutting-edge test and measurement equipment and techniques

• Experience in an international R&D team

• Insight into day-to-day engineering work

• Team Events

Working Hours:

• Standard full-time working hours (typically around 35-40 hours per week), with flexibility offered.

• The exact schedule will be agreed upon with the mentor, allowing for alignment with academic commitments where feasible.

📝 Enhancement Note: The salary estimate is based on typical "Pflichtpraktikum" (mandatory internship) compensation in Germany, particularly for engineering roles in established tech companies. The benefits highlight the learning and development aspects crucial for an intern.

🎯 Team & Company Context

🏢 Company Culture

Industry: Technology / Manufacturing / Test & Measurement Equipment (National Instruments is a subsidiary of Emerson, a global technology and engineering company).

Company Size: Emerson is a large, global corporation. National Instruments, as part of Emerson, operates with a significant R&D presence. The Dresden site is a key research hub.

Founded: National Instruments was founded in 1976; Emerson acquired NI in 2023. This integration brings together established expertise in test and measurement with Emerson's broader industrial and engineering solutions.

Team Structure:

• The intern will join a dedicated R&D team focused on next-generation wireless communications, specifically 6G technologies.

• This team likely comprises experienced engineers, researchers, and possibly other interns or PhD students.

Methodology:

• The team operates within an R&D framework, emphasizing innovation, experimentation, and the application of cutting-edge technologies.

• A data-driven approach is integral, with a focus on rigorous experimentation, measurement campaigns, and performance analysis.

• Agile methodologies may be employed for project management and iterative development of prototypes.

Company Website: https://www.emerson.com/ (for Emerson), https://www.ni.com/ (for National Instruments)

📝 Enhancement Note: Understanding that National Instruments is now part of Emerson provides context about the company's scale, resources, and commitment to long-term R&D investments in critical technology areas like advanced wireless communication.

📈 Career & Growth Analysis

Operations Career Level:

Reporting Structure:

• The intern will report to a designated mentor, likely a senior engineer or researcher within the 6G R&D team.

• The mentor will provide guidance, supervision, and feedback throughout the internship duration.

Operations Impact:

• While an intern's direct impact is focused on contributing to specific research tasks and prototype development, their work is crucial for advancing the team’s understanding and capabilities in 6G technologies.

Growth Opportunities:

• Technical Skill Development: Deepen knowledge and practical skills in wireless communications, digital signal processing, programming (Python, C), and prototyping.

• Industry Exposure: Gain firsthand experience in an advanced R&D environment within a leading technology company, understanding industry trends and challenges.

• Networking: Build professional connections with experienced engineers and researchers, potentially leading to future career opportunities.

• Mentorship: Benefit from structured mentorship, receiving personalized guidance on technical challenges and career development.

• Potential for Future Roles: Successful interns may be considered for future full-time positions or further internships based on performance and business needs.

📝 Enhancement Note: The growth analysis is tailored to an internship, emphasizing learning, skill acquisition, and exposure rather than immediate career advancement. The "impact" is framed in terms of contribution to the team's research goals.

🌐 Work Environment

Office Type:

• The role is on-site at the Emerson (National Instruments) facility in Dresden, Germany. This environment is typical of a modern R&D center.

Office Location(s):

• Am Waldschlosschen 2, 01099 Dresden, Saxony, Germany.

Workspace Context:

• Collaborative Environment: The lab and office spaces are designed to foster collaboration among team members, encouraging the exchange of ideas and problem-solving.

• Tools and Technology: Access to state-of-the-art test and measurement equipment, development tools, and prototyping hardware/software will be provided.

• Team Interaction: Regular team meetings, project discussions, and informal interactions will facilitate knowledge sharing and integration into the team's workflow.

Work Schedule:

• Full-time (approx. 35-40 hours per week), with flexibility to accommodate academic schedules where possible.

• The internship duration is fixed at 6 months, starting in October 2026.

📝 Enhancement Note: The description of the workspace highlights the hands-on nature of the role, with access to specialized lab equipment being a key feature. The flexibility in working hours is a common benefit for interns to balance their academic responsibilities.

📄 Application & Portfolio Review Process

Interview Process:

• Initial Application Review: Screening of CVs, academic transcripts, motivation letters, and compulsory internship certificates.

• Technical Screening/Interview: This may involve a discussion about the candidate's academic projects, programming skills (Python, C), understanding of DSP, and wireless communication concepts. Case studies or technical questions related to the required skills may be presented.

• Team/Mentor Interview: An opportunity to meet potential team members and the hiring mentor. This stage assesses cultural fit, problem-solving approach, communication skills, and enthusiasm for the specific research area.

• Logistics Confirmation: Discussion of internship dates, duration, and any specific onboarding requirements.

Portfolio Review Tips:

• Highlight Relevant Projects: If you have personal projects, university assignments, or contributions related to embedded systems, programming (Python/C), signal processing, or wireless communications, prepare to discuss them.

• Demonstrate Problem-Solving: For each project, be ready to explain the problem you addressed, your approach, the tools/technologies you used, and the outcome. Focus on your learning and any challenges overcome.

• Showcase Coding Skills: Be prepared to discuss your coding practices and potentially share code samples (if applicable and permitted) that demonstrate your proficiency in Python and C.

• Explain Your Motivation: Clearly articulate why you are interested in 6G wireless communications, this specific company, and what you hope to achieve during the internship.

Challenge Preparation:

• Technical Fundamentals: Refresh your knowledge of digital signal processing (especially OFDM), basic wireless communication theory, and core programming concepts in Python and C.

• Problem-Solving Scenarios: Think about how you would approach a technical challenge, such as debugging a prototype or designing a simple experiment. Practice articulating your thought process.

• Enthusiasm for Innovation: Be ready to express your passion for new technologies and your eagerness to learn and contribute to cutting-edge research.

📝 Enhancement Note: The interview process for an internship is typically less rigorous than for a full-time role but still requires demonstrating foundational knowledge and potential. The emphasis on a "motivation letter" and "compulsory internship certificate" is critical for this type of application.

🛠 Tools & Technology Stack

Primary Tools:

• Programming Languages: Python, C (essential)

• Operating System: Linux (essential)

• Development Environments: IDEs such as VS Code, Eclipse, or others commonly used for C/Python development on Linux.

• Version Control: Git (highly recommended for collaboration and code management).

Analytics & Reporting:

• Data Analysis Libraries: NumPy, SciPy, Pandas (for Python-based data manipulation and analysis).

• Mathematical/Signal Processing Libraries: Potentially MATLAB or Octave for simulation and analysis, or specific Python libraries for DSP.

• Visualization Tools: Matplotlib, Seaborn (for Python) to create plots and charts for experimental results.

CRM & Automation:

• Not directly applicable to this R&D internship role, as the focus is on technical development and prototyping rather than business operations.

📝 Enhancement Note: The tools listed are directly derived from the "For This Role, You Will Need" section, emphasizing the core programming languages and operating system. Advanced tools are implied by the nature of R&D prototyping.

👥 Team Culture & Values

Operations Values:

• Innovation & Curiosity: A strong drive to explore new technologies and push the boundaries of wireless communication.

• Collaboration & Teamwork: Working effectively with others, sharing knowledge, and supporting team goals.

• Problem-Solving & Rigor: A methodical approach to identifying and solving technical challenges, backed by experimental evidence.

• Continuous Learning: An eagerness to stay updated with the latest advancements in the field and to develop new skills.

• Impact & Excellence: A commitment to delivering high-quality results and contributing to meaningful technological advancements.

Collaboration Style:

• The team fosters an open and collaborative environment where ideas are freely exchanged.

• Mentorship plays a key role, with senior members guiding and supporting junior members and interns.

• Cross-functional collaboration is encouraged, bridging software, hardware, and systems engineering perspectives.

• Regular team meetings and informal discussions facilitate alignment and knowledge sharing.

📝 Enhancement Note: The values are inferred from the company's description of its culture and commitment to development, combined with the nature of R&D work in a cutting-edge technology field.

⚡ Challenges & Growth Opportunities

Challenges:

• Complexity of 6G Technologies: Grasping and contributing to highly advanced and rapidly evolving areas like ISAC and ML in communications.

• Prototyping and Debugging: Overcoming technical hurdles in building and troubleshooting experimental systems.

• Integrating New Concepts: Effectively incorporating novel ideas into existing prototyping frameworks.

• Time Management: Balancing demanding research tasks with academic requirements and internship duration.

Learning & Development Opportunities:

• Specialized Technical Training: Deep dive into specific 6G technologies through hands-on work and mentorship.

• Practical Application of Theory: Translating academic knowledge into tangible engineering solutions.

• Exposure to Industry Best Practices: Learning from experienced professionals in an R&D setting.

• Professional Networking: Building relationships within a global technology organization.

• Potential for Future Opportunities: A strong performance can open doors for further internships or full-time roles within Emerson/NI.

📝 Enhancement Note: Challenges are framed around the inherent difficulties of working with cutting-edge technology, while growth opportunities focus on the unique learning experiences an internship provides.

💡 Interview Preparation

Strategy Questions:

• "Tell me about a challenging technical project you've worked on (academic or personal) and how you overcame the difficulties."

  • Preparation: Focus on projects where you programmed in Python or C, dealt with signal processing, or used Linux. Detail your problem-solving steps and the outcome.

• "Why are you interested in 6G wireless communications and this specific internship at Emerson/NI?"

  • Preparation: Research 6G trends, ISAC, ML in comms. Connect your interests and skills to the role and company's work. Mention the mandatory internship aspect.

• "Describe your experience with Python, C, and Linux. How have you used these in practical applications?"

Company & Culture Questions:

• "What do you know about Emerson and National Instruments, and what makes you want to intern here?"

  • Preparation: Research Emerson's broader technology portfolio and NI's specific contributions to test and measurement. Understand their focus on innovation.

• "How do you approach working in a team, especially in a research and development setting?"

  • Preparation: Discuss your collaborative experiences, how you handle disagreements, and your willingness to learn from others. Highlight your self-organization skills.

• "What are your expectations for this internship, and what do you hope to learn and achieve?"

Portfolio Presentation Strategy:

• Project Showcase: If you have relevant projects, prepare a brief overview of each, highlighting the technical challenges, your role, the technologies used (Python, C, Linux, DSP concepts), and the results.

• Code Snippets: Be ready to discuss specific code examples that demonstrate your proficiency and problem-solving approach.

• Enthusiasm & Eagerness: Convey your passion for wireless technology and your proactive attitude towards learning and contributing.

📝 Enhancement Note: Interview preparation focuses on demonstrating core technical competencies, genuine interest in the field and company, and a strong work ethic suitable for an internship.

📌 Application Steps

To apply for this internship position:

• Submit your application through the Emerson/Oracle Cloud application portal.

• Tailor your CV and Motivation Letter: Clearly highlight your academic background (5th semester or later in Electrical Engineering/Computer Science), relevant programming skills (Python, C), and any projects related to digital signal processing or wireless communications. Emphasize why this is a mandatory internship for your studies.

• Prepare Your Compulsory Internship Certificate: Ensure you have the required documentation from your university’s internship or examination office readily available.

• Showcase Practical Experience: If you have personal projects or university assignments demonstrating your hands-on skills with Linux, Python, C, or DSP concepts, be prepared to discuss them in detail during interviews.

• Research the Company: Familiarize yourself with Emerson and National Instruments, their work in wireless communications, and the importance of 6G technology. Understand their culture of innovation and development.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and operations industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.