Abstract
A subject that therefore very important to several choices during this world might hardly escape measurement. The name “reliability” is given to the sector of study that makes a shot to assign numbers to the propensity of systems to fail. In a ton of restrictive sense, the term “reliability” is made public to be the likelihood that a system performs its mission with success. This paper presents an approach to reliability of mathematical model formed for manually operated wood chipper. The novelty of this research is considered to be a prime importance because it unique in applicable for any mathematical model formed. The mathematical model is formed for the three dependent π terms, i.e., processing time (tp), output weight of chips produced (Wo) and average resistive torque (Tr_avg) (Sonde in Int J Recent Trends Mech Eng IJRTME 2:17–25, 2013
1]. Error frequency distribution for developed models with graphical representation is done. These graphs were compared with likelihood density perform graphs of usually used life distributions. In applied mathematics analysis, distribution is most generalized case. Several applied mathematics distributions unit of measurement accustomed model varied responsibility parameters. Model dependableness approximation is dead by examination error frequency graphs of varied mathematical models with likelihood density perform graphs of usually used life distribution.