Per the college's Common Data Set, section C7. The Importance the Institution Places on Each of the Following Academic and Nonacademic Factors in Their First-Time, First-Year, Degree-Seeking Admission Decisions.
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Es on directly applying formalism to practical problems. Much of his work takes place in the emerging field of semantics engineering, where he scales PL techniques up to work on real systems. His primary focus is on improving the POSIX shel
Notable: “Initial B-Cell Responses to Transmitted Human Immunodeficiency Virus Type 1: Virion-Binding Immunoglobulin M (IgM) and IgG Antibodies Followed by Plasma Anti-gp41 Antibodies with Ineffective Control of Initial Viremia” (2008) · 624 citations
Kai Li, Assistant Professorh-index 32
Notable: “An efficient 3D topology optimization code written in Matlab” (2014) · 628 citations
Jina Huh-Yoo, Associate Professorh-index 29
Human-Computer Interaction) M.S. (2004) Carnegie Mellon University (Human-Computer Interaction) B.A. (2003) Korea National University of Arts (Multimedia Design) Research human-computer interaction, health informatics, social computing
Notable: “Systematic Review: Trust-Building Factors and Implications for Conversational Agent Design” (2020) · 341 citations
Philippos Mordohai, Professorh-index 28
Notable: “Detailed Real-Time Urban 3D Reconstruction from Video” (2007) · 726 citations
Lies in modeling, sensing, control and design of robots. I have experiences in telemanipulation, kinematic modeling and calibration, force control, continuum robots, and robotic hand designs. The applications that I am mostly interested in
Notable: “Finite-Time Consensus Problems for Networks of Dynamic Agents” (2010) · 1,160 citations
Jianmin Qu, Senior Vice President for Academic Affairs and Provosth-index 61
Crosses several areas including micromechanics of composites, interfacial fracture and adhesion, fatigue and creep damage in metallic and polymer materials, fuel cells and batteries, thermomechanical reliability of microelectronic packaging
Notable: “Modeling elastic wave propagation in waveguides with the finite element method” (1999) · 587 citations
Christophe Pierre, Professor and Jess H. Davis Endowed Chairh-index 55
Jean Zu, Lore E. Feiler Dean, Schaefer School of Engineering and Scienceh-index 53
Have focused on mechanical vibrations and dynamics, and mechatronics with applications including biomedical instrumentation and energy harvesting. General Information Jean Zu came to Stevens on May 1, 2017 as Dean after serving as the depar
Notable: “High-Performance Piezoelectric Energy Harvesters and Their Applications” (2018) · 1,222 citations
Douglas Cumming, Professor & Steven Shulman '62 Endowed Chairh-index 80
Notable: “Signaling in Equity Crowdfunding” (2015) · 1,834 citations
Gert-Jan de Vreede, Dean of the School of Businessh-index 48
Thomas Lechler, Associate Professorh-index 19
Es on the early development stages of new ventures and the success factors of project management to understand the dynamics and interactions between decisions, structures, and behaviors on innovation success. He has built up an internationa
Notable: “Plans are nothing, changing plans is everything: the impact of changes on project success” (2003) · 402 citations
Xiaojiang Du, Professor and Anson Wood Burchard Professorh-index 82
Internet of Things (IoT) Security, Cyber Physical Systems (CPS) Security Artificial Intelligence (AI) Security, Machine Learning Security Wireless Network Security, Mobile Device Security System and Network Security, Security and P
Notable: “A Survey of Machine and Deep Learning Methods for Internet of Things (IoT) Security” (2022) · 1,229 citations
Lei Wu, Professor and Anson Wood Burchard Professorh-index 71
Notable: “Stochastic Security-Constrained Unit Commitment” (2007) · 849 citations
Yu-Dong Yao, Professorh-index 64
Es on AI, machine learning, and deep learning algorithms, with applications spanning two primary areas: (1) wireless communications and networks, including sensors, signals, and protocols; and (2) medical and biomedical engineering, particu
Notable: “Modulation Classification Based on Signal Constellation Diagrams and Deep Learning” (2018) · 620 citations
Notable: “New development of ultra-high-performance concrete (UHPC)” (2021) · 952 citations
Muhammad Hajj, George Meade Bond Professor, Department Chairh-index 48
Notable: “Piezoelectric energy harvesting from vortex-induced vibrations of circular cylinder” (2013) · 307 citations
Weina Meng, Associate Professor & Undergraduate Studies Chairh-index 44
Notable: “New development of ultra-high-performance concrete (UHPC)” (2021) · 952 citations
Cheng Chen, Professor & Nariman Farvardin Professorh-index 41
Notable: “Utilizing the Built‐in Electric Field of p–n Junctions to Spatially Propel the Stepwise Polysulfide Conversion in Lithium–Sulfur Batteries” (2021) · 259 citations
Es on developing and utilizing computational methods to provide accurate information for molecular and biomolecular systems, particularly those of broad impact on biomedicine and sustainable chemistry. Our high accuracy computational result
Notable: “Nanoparticles in Photodynamic Therapy” (2015) · 2,908 citations
Sheo Singh, Adjuncth-index 59
Notable: “Platensimycin is a selective FabF inhibitor with potent antibiotic properties” (2006) · 815 citations
Woo Lee, Professor and Department Chairh-index 40
Notable: “Fast fabrication of long-range ordered porous alumina membranes by hard anodization” (2006) · 1,365 citations
Faculty counts are directory headcounts; the named list may be a subset. h-index shown only for ORCID-backed or high-confidence OpenAlex matches. Partial — enrichment ongoing.
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About Stevens Institute of Technology. Stevens Institute of Technology in Hoboken, NJ reports an overall acceptance rate of 47.6%, an early-round acceptance rate of 72.4%, an SAT middle 50% of 1380–1505, a class size of 1,010, and a yield of 17.0% based on the most recent Common Data Set filings. Small STEM-focused university in Hoboken, NJ with Manhattan skyline views. Excellent outcomes in finance, engineering, and CS. 12% of students are varsity athletes.
Admissions and cost data as of July 3, 2026 (CDS 2024–25 cycle), from the most recent Common Data Set, IPEDS, and College Scorecard.
Stevens Institute of Technology: key admissions facts
Stevens Institute of Technology's overall acceptance rate is 47.6% (the most recent Common Data Set). Stevens Institute of Technology's early-round acceptance rate is 72.4% (the most recent Common Data Set). Stevens Institute of Technology's SAT middle-50% range is 1380–1505 (the most recent Common Data Set). The average unweighted GPA of admitted students at Stevens Institute of Technology is about 3.7 (the most recent Common Data Set). Stevens Institute of Technology's yield rate (the share of admitted students who enroll) is 17.0% (the most recent Common Data Set). The average net price at Stevens Institute of Technology for families earning under $75,000 is about $29,309 per year (U.S. Department of Education College Scorecard/IPEDS data).
How much does Stevens Institute of Technology cost for a family earning $75,000?
A family earning under $30,000 pays about $27,221 per year in net price at Stevens Institute of Technology, while families earning over $110,000 pay about $49,538 (source: U.S. Department of Education College Scorecard/IPEDS data). A family earning $75,000 falls in the $48,001–$75,000 bracket and pays about $33,102 per year after grants and scholarships.
Stevens Institute of Technology: average annual net price by household income (most recent College Scorecard/IPEDS data)
Household income
Average net price per year
Under $30,000
$27,221
$30,001–$48,000
$27,603
$48,001–$75,000
$33,102
$75,001–$110,000
$38,095
Over $110,000
$49,538
Tuition (before aid)
$65,530
Room and board
$20,744
Frequently asked questions
What is the acceptance rate at Stevens Institute of Technology?
Stevens Institute of Technology's overall acceptance rate is 47.6%, based on the most recent Common Data Set. Its early-round (early decision or early action) acceptance rate is 72.4%.
What SAT score and GPA do you need for Stevens Institute of Technology?
Admitted students at Stevens Institute of Technology typically have an SAT middle-50% range of 1380–1505 and an average unweighted GPA of about 3.7, according to the most recent Common Data Set. These are the middle of the range, so scores above them strengthen an application.
Is it hard to get into Stevens Institute of Technology?
Getting into Stevens Institute of Technology is difficult: it admits 47.6% of applicants. Your realistic odds depend on how your GPA and test scores compare to its middle-50% ranges and on your application round — you can estimate them with the free College Monte Carlo chances calculator.
Does Stevens Institute of Technology offer early decision or early action?
Stevens Institute of Technology offers early decision (binding) and early action (non-binding). Applying early can help: its early-round acceptance rate is 72.4%, versus 47.6% overall.
How much does Stevens Institute of Technology cost after financial aid?
The average net price at Stevens Institute of Technology — the real cost after grants and scholarships, not the sticker price — is about $29,309 per year for families earning under $75,000, based on U.S. Department of Education College Scorecard/IPEDS data. Higher-income families generally pay more; see the full net-price-by-income breakdown.
How much does Stevens Institute of Technology cost for a family earning $75,000?
A family earning under $30,000 pays about $27,221 per year in net price at Stevens Institute of Technology, while families earning over $110,000 pay about $49,538 (source: U.S. Department of Education College Scorecard/IPEDS data). A family earning $75,000 falls in the $48,001–$75,000 bracket and pays about $33,102 per year after grants and scholarships.