The following pages link to A stochastic model of hormesis (Q688463):
Displaying 19 items.
- Destructive negative binomial cure rate model and EM-based likelihood inference under Weibull lifetime (Q297131) (← links)
- Correlated destructive generalized power series cure rate models and associated inference with an application to a cutaneous melanoma data (Q434945) (← links)
- On the unification of long-term survival models (Q1009709) (← links)
- Modeling carcinogenesis under a time-changing exposure (Q1306965) (← links)
- Modeling radioprotective mechanisms in the dose effect relation at low doses and low dose rates of ionizing radiation (Q1307675) (← links)
- Detection of hormesis effect in longevity: Simulation approach for heterogeneous population (Q1602566) (← links)
- Lognormal lifetimes and likelihood-based inference for flexible cure rate models based on COM-Poisson family (Q1615083) (← links)
- A diversity of responses displayed by a stochastic model of radiation carcinogenesis allowing for cell death (Q1909350) (← links)
- Identifiability of parameters in the Yakovlev-Polig model of carcinogenesis (Q1961936) (← links)
- The notion of hormesis and the dose-response theory: a unified approach (Q2209123) (← links)
- COM-Poisson cure rate survival models and an application to cutaneous melanoma data (Q2272115) (← links)
- EM algorithm-based likelihood estimation for some cure rate models (Q2320800) (← links)
- Likelihood inference for the destructive exponentially weighted Poisson cure rate model with Weibull lifetime and an application to melanoma data (Q2358928) (← links)
- Likelihood Inference for Flexible Cure Rate Models with Gamma Lifetimes (Q2796904) (← links)
- Likelihood inference based on EM algorithm for the destructive length-biased Poisson cure rate model with Weibull lifetime (Q5084729) (← links)
- An EM type estimation procedure for the destructive exponentially weighted Poisson regression cure model under generalized gamma lifetime (Q5106840) (← links)
- (Q5166918) (← links)
- Modeling cancer detection: Tumor size as a source of information on unobservable stages of carcinogenesis (Q5945804) (← links)
- The risk of leukemia from low doses of low-LET radiation (Q5951035) (← links)
