Parkinson’s Law, Overtime Work and Human Productivity
Problems of the Mathematical Theory of Human Work (Principles of Mathematical Modeling in Project Management)
Principles of top-down quantitative analysis of projects Part 2 Analytical derivation of functional relationships between project parameters without project data
Similarity of Projects Methodology and Analysis With TRANSCALE Tool
Dynamic Mathematical Models of Projects (Part1. High-Level Quantitative Representation of Projects Without Accounting for Design Feedbacks)
Dynamic Mathematical Models of Human Work (Differential Equations of Human Labor)
Multi-Parametric Models for Project Data Mining and Project Planning
Quantitative Analysis of Team Size and Its Hierarchical Structure
Mathematical Theory of Human Work
Reliability of Project a Quantitative Approach
Nonlinear and Random Accomplishment Time of Human Actions
Probabilistic Analysis of the Duration of Human Actions (Analytical Scheduling Risk Analysis)
Project Nonlinear Scaling and Transformation
Missing Nonlinearities in Quantitative Project Management
Project Data Mining and Project Estimation Top-Down Methodology With TRANSCALE Tool
Differential Equation of Connectedness for Massively Interconnected Systems
The Dynamics of Human Social Behavior: Qualitative Mathematical Description of Human Interactions
Principles of Top-down Analysis of Projects Part 1 State Equation of Projects and Project Change Analysis