Introduction

In engineering education, placement readiness is often assessed primarily through academic performance; however, academic scores alone may not adequately represent a student’s preparedness for industry roles. Engineering graduates are expected to demonstrate practical exposure, technical competence, and career-oriented engagement in addition to theoretical knowledge. This study aims to develop a structured, data-driven framework to evaluate placement readiness among undergraduate engineering students and identify key predictors influencing employability preparedness.

Methods

An exploratory pilot study was conducted using data collected from 11 undergraduate engineering students through a structured self-assessment instrument. The questionnaire captured academic indicators (CGPA, backlogs), programming proficiency, coding practice intensity, internship participation, mini-project involvement, resume readiness, and hackathon participation. Categorical responses were converted into numerical values, and a Composite Placement Readiness Score (PRS) was calculated by aggregating weighted academic and experiential indicators. Descriptive statistics and correlation analysis were performed to identify relationships between individual factors and overall readiness.

Results

The mean PRS indicated moderate overall preparedness within the cohort. Correlation analysis revealed that academic performance (r ≈ 0.73), internship participation (r ≈ 0.47), and mini-project involvement (r ≈ 0.52) showed the strongest positive associations with placement readiness. Students with internship and project exposure consistently demonstrated higher readiness scores compared to those without such experience.

Conclusions

The findings suggest that placement readiness among engineering students is multidimensional and strongly influenced by experiential learning components alongside academic consistency. This pilot framework demonstrates the feasibility of structured educational analytics for early identification of readiness gaps and supports the integration of practical exposure within engineering curricula to enhance employability outcomes.