Computer and Information Research Scientist

Work environment

Computer and Information Research Scientists typically work in research laboratories, corporate research and development departments, or academic settings. They often collaborate with engineers and other scientists, spending considerable time on research and experiments, as well as documenting and publishing their findings.

Quick task list

• Conducts innovative research in computer science.
• Publishes findings in academic journals and presents at conferences.
• Develops new computer hardware or software technologies.
• Collaborates with engineers and scientists in other disciplines.
• Applies theoretical findings to practical problems in business, science, or other fields.

Description

Computer and Information Research Scientists are at the forefront of technological innovation and advancement. Their work often leads to significant breakthroughs in computing technology, influencing various aspects of society and industry. They must not only be skilled in computer science but also be creative and forward-thinking, as they are responsible for developing new approaches to computing technology and solving complex problems.

The role requires a deep understanding of algorithms, theory, and the essence of computing. Research Scientists must be adept at thinking abstractly and applying theoretical knowledge to real-world problems. They often work on long-term projects that may take years to come to fruition.

This field is rapidly evolving, and staying up-to-date with the latest advancements and research is crucial. Computer and Information Research Scientists must continuously learn and adapt, making their work both challenging and exciting. Collaboration with other scientists and professionals is also a key part of their role, requiring strong communication and teamwork skills.

Typical education

This role usually requires a doctoral degree in computer science or a related field, which can take an average of 5-7 years post-bachelor's degree. Some positions, especially in federal government, may accept a master's degree.

High school preparation

Courses:

• Advanced Mathematics and Computer Science for foundational knowledge.
• Physics to understand the principles underlying technology.
• Statistics for data analysis and research.

Extra-Curricular Activities:

• Participate in coding clubs or competitions to hone programming skills.
• Engage in science fairs to develop research and presentation skills.
• Join or form a robotics club to gain practical experience in applying computer science.

Preparation after high school

• Pursue a bachelor's degree in computer science or a closely related field.
• Consider graduate studies leading to a master's or doctoral degree.
• Gain experience through internships in research laboratories or tech companies.
• Stay informed about the latest research and trends in computer science.

More resources

• Association for Computing Machinery (ACM) - World's largest educational and scientific computing society.
• IEEE Computer Society - Provides resources for computing professionals.
• arXiv - A free distribution service and an open-access archive for scholarly articles.
• Coursera - Offers online courses from top universities in computer science and related fields.

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