Swarm-Based Identification of Animation Key Points from 2D-medialness Maps

Aparajeya, Prashant; Leymarie, Frederic Fol; al-Rifaie, Mohammad Majid

doi:10.1007/978-3-030-16667-0_5

Cited by 5 publications

(5 citation statements)

References 19 publications

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“…It was shown that DFO is more efficient in 85% and more reliable in 90% of the 28 standard optimisation benchmarks used; furthermore, when there exists a statistically significant difference, DFO converges to better solutions in 71% of problem set. Furthermore, DFO has been applied to various problems, including but not limited to medical imaging [2], optimising machine learning algorithms [5,6], training deep neural networks for false alarm detection in intensive care units [29], computer vision and quantifying symmetrical complexities [4], identifying animation key points from medialness maps [8] and analysis of autopoiesis in computational creativity [3].…”

Section: Swarm and Evolutionary Methodsmentioning

confidence: 99%

Beer Organoleptic Optimisation: Utilising Swarm Intelligence and Evolutionary Computation Methods

al-Rifaie,

Cavazza

2020

Preprint

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Customisation in food properties is a challenging task involving optimisation of the production process with the demand to support computational creativity which is geared towards ensuring the presence of alternatives. This paper addresses the personalisation of beer properties in the specific case of craft beers where the production process is more flexible. We investigate the problem by using three swarm intelligence and evolutionary computation techniques that enable brewers to map physico-chemical properties to target organoleptic properties to design a specific brew. While there are several tools, using the original mathematical and chemistry formulas, or machine learning models that deal with the process of determining beer properties based on the pre-determined quantities of ingredients, the next step is to investigate an automated quantitative ingredient selection approach. The process is illustrated by a number of experiments designing craft beers where the results are investigated by "cloning" popular commercial brands based on their known properties. Algorithms performance is evaluated using accuracy, efficiency, reliability, population-diversity, iteration-based improvements and solution diversity. The proposed approach allows for the discovery of new recipes, personalisation and alternative high-fidelity reproduction of existing ones.

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Section: Swarm and Evolutionary Methodsmentioning

confidence: 99%

Beer Organoleptic Optimisation: Utilising Swarm Intelligence and Evolutionary Computation Methods

al-Rifaie,

Cavazza

2020

Preprint

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“…It has been demonstrated that DFO has outperformed these algorithms and is used as the optimiser in this work. This algorithm belongs to the broad family of swarm intelligence and evolutionary computation techniques and has been applied to a diverse set of problems including: medical imaging [23], solving diophantine equations [24], PID speed control of DC motor [25], optimising machine learning algorithms [26,27], training deep neural networks for false alarm detection in intensive care units [28], computer vision and quantifying symmetrical complexities [29], identifying animation key points from medialness maps [30], and the analysis of autopoiesis in computational creativity [31].…”

Section: Population-based Optimisermentioning

confidence: 99%

Evolutionary Optimisation of Beer Organoleptic Properties: A Simulation Framework

al-Rifaie

Cavazza

2022

Foods

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Modern computational techniques offer new perspectives for the personalisation of food properties through the optimisation of their production process. This paper addresses the personalisation of beer properties in the specific case of craft beers where the production process is more flexible. Furthermore, this work presents a solution discovery method that could be suitable for more complex, industrial setups. An evolutionary computation technique was used to map brewers’ desired organoleptic properties to their constrained ingredients to design novel recipes tailored for specific brews. While there exist several mathematical tools, using the original mathematical and chemistry formulas, or machine learning models that deal with the process of determining beer properties based on the predetermined quantities of ingredients, this work investigates an automated quantitative ingredient-selection approach. The process, which was applied to this problem for the first time, was investigated in a number of simulations by “cloning” several commercial brands with diverse properties. Additional experiments were conducted, demonstrating the system’s ability to deal with on-the-fly changes to users’ preferences during the optimisation process. The results of the experiments pave the way for the discovery of new recipes under varying preferences, therefore facilitating the personalisation and alternative high-fidelity reproduction of existing and new products.

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“…ϕ is invariably set to 1 and ∆ to 0.001 in published studies (e.g. [3,6,31,7,5]). The upper bound on ϕ is derived from a convergence analysis for stochastic difference equations [11]).…”

Section: Swarm Optimisationmentioning

confidence: 99%

Swarm Optimised Few-View Binary Tomography

al-Rifaie

Blackwell

2022

Applications of Evolutionary Computation

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This paper considers a swarm optimisation approach to fewview tomographic reconstruction. DFOMAX, a high diversity swarm optimiser, demonstrably reconstructs binary images to a high fidelity, outperforming a leading algebraic technique, differential evolution and particle swarm optimisation on four standard phantoms. The paper considers the effectiveness of optimisers that have been developed for optimal low dimensional performance and concludes that trial solution clamping on the walls of the feasible search space is important for good performance.

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Swarm-Based Identification of Animation Key Points from 2D-medialness Maps

Cited by 5 publications

References 19 publications

Beer Organoleptic Optimisation: Utilising Swarm Intelligence and Evolutionary Computation Methods

Beer Organoleptic Optimisation: Utilising Swarm Intelligence and Evolutionary Computation Methods

Evolutionary Optimisation of Beer Organoleptic Properties: A Simulation Framework

Swarm Optimised Few-View Binary Tomography

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