Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractionation TPO optimized with Pareto-Multiobjective (PMO) Genetic Algorithms (GA) software are obtained. The mathematical method for constrained GA is applied for a number of series of Pareto Functions. Results demonstrate PMO-AI imaging process sequences and extensive numerical values of PMO Head and Neck cancer parameters. Comparison and review with simple constrained GA Optimization is presented. Improved RT Head and Neckcancer TPO, and tumors in general for Fractional-dose photon dose delivery are explained in brie
Purpose: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
To demonstrate a method of generating patient-specific, biologically-guided radiotherapy dose plans ...
18 pages, 4 figuresThe dose delivered to the planning target volume by proton beams is highly confor...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
BED model (Biological Effective Dose) for Head and Neck tumors Hyperfractionation TPO was optimizedw...
BED model (Biological Effective Dose) for Hyperfractionation TPO was optimized with Pareto-Multiobje...
In a previous publication, constrained evolutionary algorithms for IN-VITRO-BED-LQ model (L...
In this article a brief story of mathematical model for one of the most lethal tumor, GBM, is consid...
Radiation Oncology treatment planning requires compromises to be made between clinical objectives th...
High-Dose-Rate (HDR) brachytherapy (BT) treatment planning involves determining an appropriate sched...
We propose a hybrid multiobjective (MO) evolutionary optimization algorithm (MOEA) for intensity mod...
Purpose: Current inverse planning methods for IMRT are limited because they are not de-signed to exp...
Presented to the 12th Annual Symposium on Graduate Research and Scholarly Projects (GRASP) held at ...
Thesis (Ph.D.)--University of Washington, 2021Underlying all cancer therapy protocols are the compet...
The main goal of radiation therapy is to deliver a lethal dose of radiation to the targeted tumor wh...
Purpose: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
To demonstrate a method of generating patient-specific, biologically-guided radiotherapy dose plans ...
18 pages, 4 figuresThe dose delivered to the planning target volume by proton beams is highly confor...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
BED model (Biological Effective Dose) for Head and Neck tumors Hyperfractionation TPO was optimizedw...
BED model (Biological Effective Dose) for Hyperfractionation TPO was optimized with Pareto-Multiobje...
In a previous publication, constrained evolutionary algorithms for IN-VITRO-BED-LQ model (L...
In this article a brief story of mathematical model for one of the most lethal tumor, GBM, is consid...
Radiation Oncology treatment planning requires compromises to be made between clinical objectives th...
High-Dose-Rate (HDR) brachytherapy (BT) treatment planning involves determining an appropriate sched...
We propose a hybrid multiobjective (MO) evolutionary optimization algorithm (MOEA) for intensity mod...
Purpose: Current inverse planning methods for IMRT are limited because they are not de-signed to exp...
Presented to the 12th Annual Symposium on Graduate Research and Scholarly Projects (GRASP) held at ...
Thesis (Ph.D.)--University of Washington, 2021Underlying all cancer therapy protocols are the compet...
The main goal of radiation therapy is to deliver a lethal dose of radiation to the targeted tumor wh...
Purpose: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
To demonstrate a method of generating patient-specific, biologically-guided radiotherapy dose plans ...
18 pages, 4 figuresThe dose delivered to the planning target volume by proton beams is highly confor...