Analytical Framework for Revealing Implicit Buyer Characteristics through Data Partitioning Models

Authors

Prof. Luka Petrović

Faculty of Artificial Intelligence and Market Systems Balkan Advanced Research University Sarajevo, Bosnia and Herzegovina

Author

Keywords:

Data partitioning, buyer segmentation, heterogeneous computing, latent behavior modeling

Abstract

Understanding implicit buyer characteristics has become a central challenge in data-driven marketing analytics, particularly in environments where user behavior is distributed across heterogeneous computational and data environments. Traditional segmentation techniques primarily rely on explicit demographic or transactional attributes, which often fail to capture latent behavioral structures embedded in high-dimensional, fragmented, and distributed datasets. This research proposes an analytical framework that leverages advanced data partitioning models, originally developed for heterogeneous high-performance computing (HPC) systems, and adapts them to buyer behavior inference.

The study synthesizes principles from heterogeneous system optimization, load balancing, and performance-aware partitioning strategies (Lastovetsky and Reddy, 2007; Khaleghzadeh et al., 2018; Clarke et al., 2012) to construct a computational framework capable of revealing hidden behavioral clusters. These models, traditionally used for optimizing matrix computations and data-parallel workloads, are repurposed to segment buyer datasets in a manner that preserves behavioral locality and minimizes informational loss. The proposed framework integrates functional performance modeling with adaptive partitioning logic to dynamically assign behavioral data segments across computational nodes, thereby improving clustering precision.

In addition, the framework draws conceptual parallels between customer segmentation in machine learning and workload partitioning in heterogeneous systems, extending findings from advanced clustering research in behavioral analytics (Jatav et al., 2025) to enhance latent pattern discovery. The integration of hierarchical partitioning mechanisms allows for scalable inference of buyer attributes such as purchasing intent, responsiveness, and preference volatility.

Empirical synthesis of prior HPC partitioning methodologies suggests that data-aware distribution significantly enhances pattern recognition accuracy in distributed analytics systems (Becker, 2010; Hoefler et al., 2014). Building upon these insights, the proposed analytical framework demonstrates that optimizing data locality not only improves computational efficiency but also enhances semantic clarity in buyer segmentation outputs.

The study contributes a unified perspective that bridges high-performance computing and marketing analytics, offering a scalable, model-driven approach for uncovering implicit buyer characteristics in large-scale, heterogeneous datasets. The findings underscore the importance of partition-aware analytics in next-generation intelligent marketing systems.

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