The PhD in PHI program offers a strong curriculum in human-computer interface technology and experimental design in health sciences, while focusing on:
The PHI PhD curriculum is designed to provide all students with a strong foundation in principles critical to the design and evaluation of personal health interfaces.
The PhD in PHI program offers a strong curriculum in human-computer interface technology and experimental design in health sciences, while focusing on:
The PHI PhD curriculum is designed to provide all students with a strong foundation in principles critical to the design and evaluation of personal health interfaces.
The PhD in PHI program offers a strong curriculum in human-computer interface technology and experimental design in health sciences, while focusing on:
The PHI PhD curriculum is designed to provide all students with a strong foundation in principles critical to the design and evaluation of personal health interfaces.
The PhD in PHI program offers a strong curriculum in human-computer interface technology and experimental design in health sciences, while focusing on:
The PHI PhD curriculum is designed to provide all students with a strong foundation in principles critical to the design and evaluation of personal health interfaces.
A student is considered a PhD degree candidate upon:
Each student will have one primary advisor from the core Personal Health Informatics doctoral program faculty.
The committee will consist of at least three members, including:
The committee shall include experts with both health and technology backgrounds. The dissertation advisor must be a full-time member of the Northeastern University faculty.
The three-part qualifying exam is conducted by a committee of three Personal Health Informatics doctoral program faculty members, each overseeing a specific component:
The content of the written exams and paper topic is developed in consultation with each faculty member.
A PhD student must submit a written dissertation proposal to the dissertation committee. The proposal should identify the research problem, the research plan, and its potential impact on the field. A presentation of the proposal will be made in an open forum, and the student must successfully defend it before the dissertation committee.
A PhD student must complete and defend a dissertation that involves original research in personal health informatics.
A student is considered a PhD degree candidate upon:
Each student will have one primary advisor from the core Personal Health Informatics doctoral program faculty.
The committee will consist of at least three members, including:
The committee shall include experts with both health and technology backgrounds. The dissertation advisor must be a full-time member of the Northeastern University faculty.
The three-part qualifying exam is conducted by a committee of three Personal Health Informatics doctoral program faculty members, each overseeing a specific component:
The content of the written exams and paper topic is developed in consultation with each faculty member.
A PhD student must submit a written dissertation proposal to the dissertation committee. The proposal should identify the research problem, the research plan, and its potential impact on the field. A presentation of the proposal will be made in an open forum, and the student must successfully defend it before the dissertation committee.
A PhD student must complete and defend a dissertation that involves original research in personal health informatics.
A student is considered a PhD degree candidate upon:
Each student will have one primary advisor from the core Personal Health Informatics doctoral program faculty.
The committee will consist of at least three members, including:
The committee shall include experts with both health and technology backgrounds. The dissertation advisor must be a full-time member of the Northeastern University faculty.
The three-part qualifying exam is conducted by a committee of three Personal Health Informatics doctoral program faculty members, each overseeing a specific component:
The content of the written exams and paper topic is developed in consultation with each faculty member.
A PhD student must submit a written dissertation proposal to the dissertation committee. The proposal should identify the research problem, the research plan, and its potential impact on the field. A presentation of the proposal will be made in an open forum, and the student must successfully defend it before the dissertation committee.
A PhD student must complete and defend a dissertation that involves original research in personal health informatics.
A student is considered a PhD degree candidate upon:
Each student will have one primary advisor from the core Personal Health Informatics doctoral program faculty.
The committee will consist of at least three members, including:
The committee shall include experts with both health and technology backgrounds. The dissertation advisor must be a full-time member of the Northeastern University faculty.
The three-part qualifying exam is conducted by a committee of three Personal Health Informatics doctoral program faculty members, each overseeing a specific component:
The content of the written exams and paper topic is developed in consultation with each faculty member.
A PhD student must submit a written dissertation proposal to the dissertation committee. The proposal should identify the research problem, the research plan, and its potential impact on the field. A presentation of the proposal will be made in an open forum, and the student must successfully defend it before the dissertation committee.
A PhD student must complete and defend a dissertation that involves original research in personal health informatics.
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students, with an additional practicum (1 SH). Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students, with an additional practicum (1 SH). Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students. Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students. Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students, with an additional practicum (1 SH). Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students, with an additional practicum (1 SH). Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students. Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
A minimum of 48 credit hours of coursework beyond a BS is required for the PhD in Personal Health Informatics. Five core courses (20 SH) are taken by all students. Students must also fulfill:
In addition, students are expected to attend the Personal Health Informatics Seminar Series each year.
Electives are used to build skills in a student’s research area and can be selected from the following categories:
The PhD in Personal Health Informatics is a research-oriented degree that prepares students for excellence in a specific research area of personal health informatics. As such, some learning outcomes will differ from student to student. However, all program graduates must achieve the following learning outcomes:
Communicate research results effectively in both oral and written forms.
The PhD in Personal Health Informatics is a research-oriented degree that prepares students for excellence in a specific research area of personal health informatics. As such, some learning outcomes will differ from student to student. However, all program graduates must achieve the following learning outcomes:
Communicate research results effectively in both oral and written forms.
The PhD in Personal Health Informatics is a research-oriented degree that prepares students for excellence in a specific research area of personal health informatics. As such, some learning outcomes will differ from student to student. However, all program graduates must achieve the following learning outcomes:
Communicate research results effectively in both oral and written forms.
The PhD in Personal Health Informatics is a research-oriented degree that prepares students for excellence in a specific research area of personal health informatics. As such, some learning outcomes will differ from student to student. However, all program graduates must achieve the following learning outcomes:
Communicate research results effectively in both oral and written forms.
Developing personal health technologies requires skill and experience designing systems for patients and consumers with a range of backgrounds, in different contexts, and using a variety of media and tools. And it must all be done while ensuring that fielded technologies are effective, reliable, and responsive.
Students put these skills to the test while working on, or leading, interdisciplinary research projects. They work with teams that invent, design, and prove the efficacy of novel health interface technologies with state-of-the-art computational approaches through a lens of empathy and awareness. The program enables graduates to communicate and collaborate effectively with medical personnel, computer scientists, engineers, public health researchers, and policy makers, as well as the patients and consumers who will use these new technologies.
Developing personal health technologies requires skill and experience designing systems for patients and consumers with a range of backgrounds, in different contexts, and using a variety of media and tools. And it must all be done while ensuring that fielded technologies are effective, reliable, and responsive.
Students put these skills to the test while working on, or leading, interdisciplinary research projects. They work with teams that invent, design, and prove the efficacy of novel health interface technologies with state-of-the-art computational approaches through a lens of empathy and awareness. The program enables graduates to communicate and collaborate effectively with medical personnel, computer scientists, engineers, public health researchers, and policy makers, as well as the patients and consumers who will use these new technologies.
Developing personal health technologies requires skill and experience designing systems for patients and consumers with a range of backgrounds, in different contexts, and using a variety of media and tools. And it must all be done while ensuring that fielded technologies are effective, reliable, and responsive.
Students put these skills to the test while working on, or leading, interdisciplinary research projects. They work with teams that invent, design, and prove the efficacy of novel health interface technologies with state-of-the-art computational approaches through a lens of empathy and awareness. The program enables graduates to communicate and collaborate effectively with medical personnel, computer scientists, engineers, public health researchers, and policy makers, as well as the patients and consumers who will use these new technologies.
Developing personal health technologies requires skill and experience designing systems for patients and consumers with a range of backgrounds, in different contexts, and using a variety of media and tools. And it must all be done while ensuring that fielded technologies are effective, reliable, and responsive.
Students put these skills to the test while working on, or leading, interdisciplinary research projects. They work with teams that invent, design, and prove the efficacy of novel health interface technologies with state-of-the-art computational approaches through a lens of empathy and awareness. The program enables graduates to communicate and collaborate effectively with medical personnel, computer scientists, engineers, public health researchers, and policy makers, as well as the patients and consumers who will use these new technologies.
