Your search keyword '"nature inspired"' showing total 44 results

1. Hybrid 3D Printing of a Nature‐Inspired Flexible Self‐Adhesive Biopatch for Multi‐Biosignal Sensing.

Author

Alsharif, Aljawharah A., Syed, Abdul Momin, Li, Xiaole, Alsharif, Nouf A., Lubineau, Gilles, and El‐Atab, Nazek

Subjects

*THREE-dimensional printing, *TRANSDERMAL medication, *SPORTS events, *EXTREME sports, *ADHESIVES

Abstract

Bioinspired skin adhesives are promising alternatives to traditional glue‐based skin patches for use in various skin‐attachable devices. However, the typical nano‐/microfabrication of these bioinspired microstructures provides limited manufacturing freedom over their performance, constraining their versatility and customization for widespread use. In this study, a hybrid 3D printing approach for fabricating a permeable skin patch is developed with adhesive miniaturized octopus‐like suckers (AMOS) for biosignal monitoring. The design and geometrical influences are investigated on the adhesion strength under different skin conditions (i.e., dry, wet, and hairy), permeability, and durability as well as proposed a biocompatible, stretchable, highly permeable, reusable, and conformable biopatch. Unlike commercially available biopatches that use chemical adhesives, the adhesion strength of an AMOS patch is customizable, does not cause skin irritation, and is comfortable for the wearer when worn for extended durations. The biopatch is tested in electromyogram, electrooculogram, and electrocardiogram signal measurement during a hand‐cycling experiment over extended durations that confirms its potential in extreme sport events. In addition to biosignal monitoring, 3D‐printed AMOS patches have broad applicability across various skin‐interfacing devices, including glucose and sweat monitoring, drug delivery, and wound healing. This approach offers a promising and highly customizable manufacturing solution for unlocking next‐generation skin‐attachable technologies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Resurrection Structure: New Generation of Bio-Inspired Nanocomposites and Laminates

Author

Kumar, Ashwani, Singla, Yogesh Kumar, Biswas, Pias, Heidari, Milad, Thangavel, Sivasakthivel, Kumar, Ashwani, editor, Kumar Singla, Yogesh, editor, and Maughan, Michael R., editor

Published

2024

3. Biomimetic Materials for Skin Tissue Regeneration and Electronic Skin.

Author

Youn, Sol, Ki, Mi-Ran, Abdelhamid, Mohamed A. A., and Pack, Seung-Pil

Subjects

*SKIN regeneration, *REGENERATIVE medicine, *BIOMIMETIC materials, *WOUND healing, *TISSUE engineering, *ELECTRONIC materials, *HEALING, *EXTRACELLULAR matrix

Abstract

Biomimetic materials have become a promising alternative in the field of tissue engineering and regenerative medicine to address critical challenges in wound healing and skin regeneration. Skin-mimetic materials have enormous potential to improve wound healing outcomes and enable innovative diagnostic and sensor applications. Human skin, with its complex structure and diverse functions, serves as an excellent model for designing biomaterials. Creating effective wound coverings requires mimicking the unique extracellular matrix composition, mechanical properties, and biochemical cues. Additionally, integrating electronic functionality into these materials presents exciting possibilities for real-time monitoring, diagnostics, and personalized healthcare. This review examines biomimetic skin materials and their role in regenerative wound healing, as well as their integration with electronic skin technologies. It discusses recent advances, challenges, and future directions in this rapidly evolving field. [ABSTRACT FROM AUTHOR]

Published

2024

4. Biomimetic design of building facades: an evolutionary-based computational approach inspired by elephant skin for cooling in hot and humid climates.

Author

Hays, Nathan, Badarnah, Lidia, Jain, Anuj, Blandini, Lucio, and Aanuoluwapo Oguntona, Olusegun

Subjects

BIOMIMETICS, FACADES, BUILT environment, NATURAL heat convection, EVOLUTIONARY algorithms, ELEPHANTS, SOLAR radiation

Abstract

The built environment faces significant challenges in managing energy demands amidst rising temperatures and increasing concerns linked to climate change. Meeting carbon emissions targets and resource management goals necessitates urgent innovation in more energy-efficient cooling solutions. Nature offers a large database of adaptive and efficient thermal solutions that can be harnessed through biomimetic methods in building design and systems. Emerging biomimetic and computational approaches hold promise in facilitating practical application efforts. This paper investigates the translation of morphological features from elephant skin to building facades, optimizing their inherent cooling capabilities through computational design using evolutionary algorithms. Through this exploration, we propose a set of generalized evolutionary principles, offering a foundational framework for the development of textured facade tiles with the aim of mitigating heat gain from solar radiation. This study provides an in-depth analysis of how assembly, texture depth, and orientation impact thermal performance, enabling the design of more effective passive cooling systems through an understanding of the relationship between morphological variations in textured surfaces and environmental performance. Future research may involve studying natural convection dynamics, optimizing capillary networks, evaluating materials for water adhesion and cleaning, assessing impacts on biological growth, and exploring biodiversity integration within textured facade panels. [ABSTRACT FROM AUTHOR]

Published

2024

5. Elk herd optimizer: a novel nature-inspired metaheuristic algorithm.

Author

Al-Betar, Mohammed Azmi, Awadallah, Mohammed A., Braik, Malik Shehadeh, Makhadmeh, Sharif, and Doush, Iyad Abu

Subjects

METAHEURISTIC algorithms, PARTICLE swarm optimization, OPTIMIZATION algorithms, ELK, ANIMAL herds, BENCHMARK problems (Computer science), ENGINEERING design

Abstract

This paper proposes a novel nature-inspired swarm-based optimization algorithm called elk herd optimizer (EHO). It is inspired by the breeding process of the elk herd. Elks have two main breeding seasons: rutting and calving. In the rutting season, the elk herd splits into different families of various sizes. This division is based on fighting for dominance between bulls, where the stronger bull can form a family with large numbers of harems. In the calving season, each family breeds new calves from its bull and harems. This inspiration is set in an optimization context where the optimization loop consists of three operators: rutting season, calving season, and selection season. During the selection season, all families are merged, including bulls, harems, and calves. The fittest elk herd will be selected for use in the upcoming rutting and calving seasons. In simple words, EHO divides the population into a set of groups, each with one leader and several followers in the rutting season. The number of followers is determined based on the fitness value of its leader group. Each group will generate new solutions based on its leader and followers in the calving season. The members of all groups including leaders, followers, and new solutions are combined and the fittest population is selected in the selection season. The performance of EHO is assessed using 29 benchmark optimization problems utilized in the CEC-2017 special sessions on real-parameter optimization and four traditional real-world engineering design problems. The comparative results were conducted against ten well-established metaheuristic algorithms and showed that the proposed EHO yielded the best results for almost all the benchmark functions used. Statistical testing using Friedman's test post-hocked by Holm's test function confirms the superiority of the proposed EHO when compared to other methods. In a nutshell, EHO is an efficient nature-inspired swarm-based optimization algorithm that can be used to tackle several optimization problems. [ABSTRACT FROM AUTHOR]

Published

2024

6. Nature‐Inspired Strategies for the Treatment of Osteoarthritis.

Author

Wu, Mingzhou, Zheng, Kai, Li, Wenhao, He, Weiming, Qian, Chen, Lin, Zhixiang, Xiao, Haixiang, Yang, Huilin, Xu, Yaozeng, Wei, Minggang, Bai, Jiaxiang, and Geng, Dechun

Subjects

*ARTICULAR cartilage, *MECHANICAL behavior of materials, *PLATELET-rich plasma, *SYNOVIAL fluid, *OSTEOARTHRITIS, *BIOPOLYMERS, *BIOLOGICALLY inspired computing

Abstract

Articular cartilage is devoid of nerves and blood vessels, and its nutrients must be obtained from the joint fluid; therefore, its ability to repair itself is limited. Manufactured materials such as artificial cartilage or synthetic materials are typically used in traditional approaches for knee cartilage repair. However, durability, postimplant rejection, and tissue incompatibility are the problems associated with these materials. In recent decades, tissue engineering and regenerative medicine have focused on the development of functional substitutes, particularly those based on naturally inspired biopolymers. This review focuses on sustainably produced biopolymers based on materials derived from natural sources. Furthermore, these materials have many advantages, including low antigenicity, biocompatibility, and degradability. Of course, there are also many challenges associated with natural materials, such as the lack of clinical studies and long‐term follow‐up data, unstable mechanical properties of the materials, and high demands placed on preparation and molding techniques. In this review, an overview of natural and nature‐inspired polymers that are the subject of research to date, as well as their structural designs and product performances is provided. This review provides scientific guidance for enhancing the development of naturally inspired materials for treating cartilage injuries. [ABSTRACT FROM AUTHOR]

Published

2024

7. Biomimicry – medical design concepts inspired by nature.

Author

McMahon, Muireann and Erolin, Caroline

Subjects

*BIRD flight, *BIOMIMICRY, *MEDICAL equipment, *PUBLIC opinion, *MEDICAL communication

Abstract

Biomimicry is the application of existing features in nature to human technologies, such as the invention of aircraft inspired by bird flight. In the development of medical solutions, biomimicry is a growing field of research, where a holistic understanding of nature can inspire cutting-edge design. The purpose of this study was to create an educational, visual resource exemplifying up-and-coming medical applications of biomimicry. A website was created to present 2D motion graphics (animations) and illustrations. Animation is an established and useful method of communicating health information to the public. This presents an accessible interface for the public to interact with and learn about this area of research, bridging the gap between the two. Increasing public knowledge, engagement, and interest can expand the reach and thereby influence future research. A survey was conducted to assess public engagement and opinions on both the resource and the topic of biomimicry and medical design. The results suggested that participants positively engaged with the resource; 95.7% strongly agreed/agreed that the animations were beneficial for learning. All responding participants agreed that biomimicry could provide useful solutions in medical design. This study suggests that graphic motions are effective at communicating complex ideas for public outreach. [ABSTRACT FROM AUTHOR]

Published

2024

8. Nature Inspired Metaheuristic Techniques of Firefly and Grey Wolf Algorithms Implemented in Phishing Intrusion Detection Systems

Author

Kopecky, Sandra, Dwyer, Catherine, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Arai, Kohei, editor

Published

2023

9. Biomimetic design of building facades: an evolutionary-based computational approach inspired by elephant skin for cooling in hot and humid climates

Author

Nathan Hays, Lidia Badarnah, and Anuj Jain

Subjects

adaptation, biomimicry, nature inspired, thermal, design, algorithms, Engineering (General). Civil engineering (General), TA1-2040, City planning, HT165.5-169.9

Abstract

The built environment faces significant challenges in managing energy demands amidst rising temperatures and increasing concerns linked to climate change. Meeting carbon emissions targets and resource management goals necessitates urgent innovation in more energy-efficient cooling solutions. Nature offers a large database of adaptive and efficient thermal solutions that can be harnessed through biomimetic methods in building design and systems. Emerging biomimetic and computational approaches hold promise in facilitating practical application efforts. This paper investigates the translation of morphological features from elephant skin to building facades, optimizing their inherent cooling capabilities through computational design using evolutionary algorithms. Through this exploration, we propose a set of generalized evolutionary principles, offering a foundational framework for the development of textured facade tiles with the aim of mitigating heat gain from solar radiation. This study provides an in-depth analysis of how assembly, texture depth, and orientation impact thermal performance, enabling the design of more effective passive cooling systems through an understanding of the relationship between morphological variations in textured surfaces and environmental performance. Future research may involve studying natural convection dynamics, optimizing capillary networks, evaluating materials for water adhesion and cleaning, assessing impacts on biological growth, and exploring biodiversity integration within textured facade panels.

Published

2024

10. Nature‐Inspired Electrocatalysts for CO2 Reduction to C2+ Products.

Author

Xu, Linlin, Trogadas, Panagiotis, and Coppens, Marc‐Olivier

Subjects

*ELECTROCATALYSTS, *CARBON emissions, *CARBON dioxide reduction, *METALLOENZYMES

Abstract

The electrocatalytic reduction reaction of carbon dioxide (CO2RR) has gained significant attention as a promising approach to mitigate carbon dioxide emissions and generate valuable chemicals and fuels. However, the practical application of CO2RR has been hindered by the lack of efficient and selective electrocatalysts, particularly to produce multi‐carbon (C2+) products. Nature serves as an ideal source of inspiration for the development of CO2RR electrocatalysts, as biological organisms can efficiently catalyze the same reaction and possess robust structures that are inherently scaling. In this review, recent advances in the nature‐inspired design of electrocatalysts for CO2RR to C2+ products are summarized and categorized based on their inspiration source, including the coordination sphere of metalloenzymes and the cascade reactions within the enzyme, as well as the local environment. The importance of understanding the fundamental mechanisms and the different contexts between nature and technological application in the design process is highlighted, with the aim to improve the nature‐inspired design of electrocatalysts for CO2RR to C2+ products. [ABSTRACT FROM AUTHOR]

Published

2023

11. Design and implementation of spanwise lift and gust control via arrays of bio-inspired individually actuated pneumatic flaplets

Author

Court, Alecsandra, Selim, Omar, Pamment, Keith, and Bruecker, Christoph

Published

2023

12. Biomimetic Materials for Skin Tissue Regeneration and Electronic Skin

Author

Sol Youn, Mi-Ran Ki, Mohamed A. A. Abdelhamid, and Seung-Pil Pack

Subjects

biomimetic, wound healing, wound dressing, E-skin, smart bandage, nature inspired, Technology

Abstract

Biomimetic materials have become a promising alternative in the field of tissue engineering and regenerative medicine to address critical challenges in wound healing and skin regeneration. Skin-mimetic materials have enormous potential to improve wound healing outcomes and enable innovative diagnostic and sensor applications. Human skin, with its complex structure and diverse functions, serves as an excellent model for designing biomaterials. Creating effective wound coverings requires mimicking the unique extracellular matrix composition, mechanical properties, and biochemical cues. Additionally, integrating electronic functionality into these materials presents exciting possibilities for real-time monitoring, diagnostics, and personalized healthcare. This review examines biomimetic skin materials and their role in regenerative wound healing, as well as their integration with electronic skin technologies. It discusses recent advances, challenges, and future directions in this rapidly evolving field.

Published

2024

13. Unravelling the physics and mechanisms behind slips and falls on icy surfaces: A comprehensive review and nature-inspired solutions

Author

Vipin Richhariya, Ashis Tripathy, Oscar Carvalho, Md Julker Nine, Dusan Losic, and F.S. Silva

Subjects

Slip and fall, Anti slipping, Shoe sole, Nature inspired, Ice or snow, Quasi Liquid Layer (QLL), Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Slip and Fall (SF) on slippery icy/snowy surfaces during winters is evident worldwide, especially in Nordic regions. Every year millions of people slip and fall due to ice accretion on the roads, streets, and pavements causing traumatic injuries, loss of limbs, and sometime loss of lives, costing billions in hospitals and recovery. An efficient anti-slipping winter shoe-sole could prevent these accidents and save lives. Footwear industries came up with solutions such like crampons, cleats, anti-skidding materials and tread pattern designs, but with limited success because of their ineffectiveness on wet ice, quick rate of wearing. The inspiration from nature like polar bear, seal, arctic fox, penguin, snake, octopus, frog, and gecko where this problem is elegantly solved through evolution process can address these limitations and design advanced anti-slippery surfaces. The review presents a comprehensive understanding of biological designs of the footpads (polar bear, penguin, arctic fox, frog, gecko) and skins (seal, snake, octopus’ suction cups) and recent progress on their translation for practical applications. The review emphasises on the mechanisms of icy slippery surfaces and the contact surfaces (shoe-sole and ice/snow) to mimic anti-slipping mechanism of animals and their movement on ice enabling to design the finest anti-slipping winter shoe-soles.

Published

2023

14. An optimized sensor node localization approach for wireless sensor networks using RSSI.

Author

Shilpi, Gautam, Prateek Raj, Kumar, Sunil, and Kumar, Arvind

Subjects

*WIRELESS sensor networks, *SENSOR networks, *SENSOR placement, *PARTICLE swarm optimization, *WIRELESS localization, *LOCALIZATION (Mathematics)

Abstract

This article offers an efficient isosceles layout model for node deployment, and a parameter-less Jaya algorithm is also proposed as a solution to the sensor node localization issue in wireless sensor networks (WSNs). The proposed method bases its range measuring on the receive signal strength indicator (RSSI) method. The proposed layout ensures that target nodes are always within the anchor nodes' transmission range, reducing the influence of RSSI interference and improving node localization accuracy. Compared to the earlier proposed square and equilateral layout models, the proposed model shows significant improvement. The performance of the earlier layout models and the proposed isosceles layout model for node localization is analyzed using a Jaya algorithm and compared with particle swarm optimization (PSO) and salp swarm algorithm (SSA)-based node localization algorithm. The proposed algorithm's performance is evaluated using scalability and localization accuracy assessments. We investigate the influence of the degree of irregularity on localization accuracy for each layout. The proposed isosceles layout performs 14.16% and 8.56% better than the square and equilateral layout models for the proposed Jaya-based node localization algorithm. The proposed algorithm performs 7.16% and 4.24% better than the PSO- and SSA-based node localization algorithms for the isosceles layout model in WSNs for the same parameters. MATLAB simulation evaluates the proposed layout model and node localization algorithm. [ABSTRACT FROM AUTHOR]

Published

2023

15. Aerofoil Flow Sensing Using On-Board Optical Tracking of Flexible Pillar Sensors.

Author

Selim, Omar and Brücker, Christoph

Subjects

AEROFOILS, WIND tunnel testing, DETECTORS, DYNAMIC testing

Abstract

A novel approach for sensing and characterising the flow over an aerofoil is introduced. Arrays of flexible wind-hair-like sensors distributed over an aerofoil, which are tracked remotely using high-speed imaging and processing, acting as "digital tufts", are used to provide real-time readings of local flow information with high temporal resolution. The use case presented in this paper has the sensors embedded within the suction side of a NACA0012 aerofoil and tested in a wind tunnel for varying angles of attack in static and dynamic tests. The time-averaged signals were able to provide information pertaining to the free-stream velocity and instantaneous angle of attack. The capability of the sensor type to provide temporal flow information is also explored. The sensors were used to detect low-frequency oscillations, which are pre-cursory to stall. These are hypothesised to be linked to breathing modes of the laminar separation bubble, causing a shear-layer flapping observed on the sensors. Such low-frequency oscillations were also detected shortly before separation in the ramp-up studies. [ABSTRACT FROM AUTHOR]

Published

2023

16. Multi-factor nature inspired SLA-aware energy efficient resource management for cloud environments.

Author

Bashir, Sonia, Mustafa, Saad, Ahmad, Raja Wasim, Shuja, Junaid, Maqsood, Tahir, and Alourani, Abdullah

Subjects

*POWER resources, *PARTICLE swarm optimization, *RESOURCE management, *CLOUD computing, *ENERGY consumption, *SWARM intelligence, *CONSUMPTION (Economics), *CARBON emissions

Abstract

Cloud computing provides different types of resources to users on-demand which are hosted in cloud data centers. Aforesaid services are provided at the expense of large energy consumption. Energy consumption increases the expenditure budget, greenhouse gases, and CO2 emissions. To handle this issue, researchers have come up with various server-level energy-efficient techniques. Though the proposed techniques attempt to reduce energy consumption, they only consider the energy consumption of the CPU during the task placement process. However, researchers have recently noted that memory is also one of the higher energy consumption components and it should be considered in task placement. Moreover, existing techniques ignore the SLA violations that are encountered due to workload. To address the aforementioned issues, we propose two novel nature-inspired techniques which consider the energy consumption of both CPU and memory during the VM placement process. Proposed novel techniques are based on artificial bee colony and particle swarm optimization which haven't been used to place VM while considering energy consumption of CPU and memory. Moreover, to handle the issue of resultant SLA violations, we also provide the SLA-aware variants of the proposed energy-efficient techniques, which try to lower SLA violations faced because of excessive task consolidation. The results depict that the proposed energy-efficient techniques perform better than the existing state-of-the-art techniques, whereas proposed SLA variants also reduce the SLA violations. [ABSTRACT FROM AUTHOR]

Published

2023

17. Recent advances in nature inspired triboelectric nanogenerators for self-powered systems

Author

Baosen Zhang, Yunchong Jiang, Tianci Ren, Baojin Chen, Renyun Zhang, and Yanchao Mao

Subjects

triboelectric nanogenerator, nature inspired, self-powered sensor, self-powered system, Materials of engineering and construction. Mechanics of materials, TA401-492, Industrial engineering. Management engineering, T55.4-60.8, Physics, QC1-999

Abstract

Triboelectric nanogenerators (TENGs) stand at the forefront of energy harvesting innovation, transforming mechanical energy into electrical power through triboelectrification and electrostatic induction. This groundbreaking technology addresses the urgent need for sustainable and renewable energy solutions, opening new avenues for self-powered systems. Despite their potential, TENGs face challenges such as material optimization for enhanced triboelectric effects, scalability, and improving conversion efficiency under varied conditions. Durability and environmental stability also pose significant hurdles, necessitating further research towards more resilient systems. Nature inspired TENG designs offer promising solutions by emulating biological processes and structures, such as the energy mechanisms of plants and the textured surfaces of animal skins. This biomimetic approach has led to notable improvements in material properties, structural designs, and overall TENG performance, including enhanced energy conversion efficiency and environmental robustness. The exploration into bio-inspired TENGs has unlocked new possibilities in energy harvesting, self-powered sensing, and wearable electronics, emphasizing reduced energy consumption and increased efficiency through innovative design. This review encapsulates the challenges and advancements in nature inspired TENGs, highlighting the integration of biomimetic principles to overcome current limitations. By focusing on augmented electrical properties, biodegradability, and self-healing capabilities, nature inspired TENGs pave the way for more sustainable and versatile energy solutions.

Published

2024

18. Review of Nature Inspired Metaheuristic Algorithm Selection for Combinatorial t-Way Testing

Author

Aminu Aminu Muazu, Ahmad Sobri Hashim, and Aliza Sarlan

Subjects

Metaheuristic algorithm, nature inspired, combinatorial t-way testing, test case optimization, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The metaheuristic algorithm is a very important area of research that continuously improves in solving optimization problems. Nature-inspired is one of the metaheuristic algorithm classifications that has grown in popularity among researchers over the last few decades. Nature-inspired metaheuristic algorithms contribute significantly to tackling many standing complex problems (such as the combinatorial t-way testing problem) and achieving optimal results. One challenge in this area is the combinatorial explosion problem, which is always intended to find the most optimal final test suite that will cover all combinations of a given interaction strength. As such, test case generation has been selected as the most active research area in combinatorial t-way testing as Non-deterministic Polynomial-Time Hardness (NP-hard). However, not all metaheuristics are effectively adopted in combinatorial t-way testing, some proved to be effective and thus have been popular tools selected for optimization, whilst others were not. This research paper outlines a hundred and ten (110) outstanding nature-inspired metaheuristic algorithms for the last decades (2001 and 2021), such as the Coronavirus Optimization Algorithm, Ebola Optimization Algorithm, Harmony Search, Tiki-Taka Algorithm, and so on. The purpose of this review is to revisit and carry out an up-to-date review of these distinguished algorithms with their respective current states of use. This is to inspire future research in the field of combinatorial t-way testing for better optimization. Thus, we found that all metaheuristics have a simple structure that can be adopted in different areas to become more efficient in optimization. Finally, we suggested some future paths of investigation for researchers who are interested in the combinatorial t-way testing field to employ more of these algorithms by tuning their parameters settings to achieve an optimal solution.

Published

2022

19. Recent advances in nature inspired triboelectric nanogenerators for self-powered systems

Author

Zhang, B., Jiang, Y., Ren, T., Chen, B., Zhang, Renyun, Mao, Y., Zhang, B., Jiang, Y., Ren, T., Chen, B., Zhang, Renyun, and Mao, Y.

Abstract

Highlights Comprehensive and systematic summary of nature inspired TENGs, including materials and structures. Summary of bionic approaches to nature inspired TENGs. Analysis and evaluation of the latest applications of nature inspired TENGs in energy harvesting and self-powered systems. Explanation of current challenges and future development directions of nature inspired TENGs.

Published

2024

20. Biotype

Author

Simsson, Teo and Simsson, Teo

Abstract

Detta projekt är uppdelat i tre delar med en undersökande del, kreativ del och en reflekterande del. I den undersökande delen finns min uppsats om biomimik inom förpackningsdesign. I uppsatsen genomförs en typ av litteraturundersökning om vad som finns skrivet runt ämnet biomimik inom förpackningsdesign. Det man kunde ta utifrån resultatet av undersökningen är att det existerar väldigt lite litteratur om ämnet biomimik inom förpackningsdesign, av det material som hittades var man dock väldigt positiv till biomimik som förhållningssätt. Utifrån min uppsats gav jag mig själv briefen att "få designers att ta mer inspiration från naturen". Med min brief skapade jag under den kreativa delen Biotype, ett typsnitts gjuteri där man skapar fonter med inspiration från naturen. Målet är att inspirera designers att ta mer inspiration från naturen. Biotype sprider också viktig information om miljöproblem och andra hot mot naturen genom sina typsnitt. Arbetet ledde till skapandet av sex olika fonter, varsin animation till varje font, webbshop och en låda med posters på varje typsnitt. I min reflekterande del visar jag upp mitt utställningsarbete som bestod av en pitch tillsammans med en utställning av mitt kreativa projekt. Jag visar också upp den digitala publiceringen och avslutar med en reflektion över hela arbetet., This project is divided into three parts with an investigative part, creative part and a reflective part. In the investigative part, there is my essay on biomimicry in packaging design. In the essay, a type of literature survey is carried out on what has been written around the subject of biomimicry in packaging design. What could be taken from the results of the survey is that there is very little literature on the subject of biomimicry in packaging design, from the material that was found, however, one was very positive about biomimicry as an approach. Based on my essay, I gave myself the brief to "get designers to take more inspiration from nature". With my brief, during the creative part I created Biotype, a font foundry where you create fonts with inspiration from nature. The goal is to inspire designers to take more inspiration from nature. Biotype also spreads important information about environmental problems and other threats to nature through its typefaces. The work led to the creation of six different fonts, an animation for each font, a web shop and a box of posters on each font. In my reflective part, I show my exhibition work which consisted of a pitch together with an exhibition of my creative project. I also present the digital publication and conclude with a reflection on the entire work.

Published

2024

21. Aerofoil Flow Sensing Using On-Board Optical Tracking of Flexible Pillar Sensors

Author

Omar Selim and Christoph Brücker

Subjects

aerodynamics, sensor, nature inspired, Thermodynamics, QC310.15-319, Descriptive and experimental mechanics, QC120-168.85

Abstract

A novel approach for sensing and characterising the flow over an aerofoil is introduced. Arrays of flexible wind-hair-like sensors distributed over an aerofoil, which are tracked remotely using high-speed imaging and processing, acting as “digital tufts”, are used to provide real-time readings of local flow information with high temporal resolution. The use case presented in this paper has the sensors embedded within the suction side of a NACA0012 aerofoil and tested in a wind tunnel for varying angles of attack in static and dynamic tests. The time-averaged signals were able to provide information pertaining to the free-stream velocity and instantaneous angle of attack. The capability of the sensor type to provide temporal flow information is also explored. The sensors were used to detect low-frequency oscillations, which are pre-cursory to stall. These are hypothesised to be linked to breathing modes of the laminar separation bubble, causing a shear-layer flapping observed on the sensors. Such low-frequency oscillations were also detected shortly before separation in the ramp-up studies.

Published

2023

22. Laser Structuring and DLC Coating of Elastomers for High Performance Applications.

Author

Vogel, Sönke, Brenner, Andreas, Schlüter, Bernadette, Blug, Bernhard, Kirsch, Franziska, and van Roo, Tamara

Subjects

*DIAMOND-like carbon, *COATING processes, *ELASTOMERS, *SURFACE coatings, *TENSILE tests

Abstract

Even though hard, low friction coatings such as diamond like carbon (DLC) would be beneficial for the performance and longevity of rubber seals, a crucial challenge remains. The elastic mismatch of rubber substrate and DLC coating prevents a fracture free coating application. In this work, a nature inspired approach is applied to render the stiff coating flexible and resilient to delamination at the same time by direct patterning. Rubber substrates were laser structured with tile patterns and subsequently DLC coated. Tensile and tribology tests were performed on structured and unstructured samples. Unstructured DLC coatings showed a crack pattern induced by the coating process, which was further fragmented by tensile stress. Coatings with tile patterns did not experience a further fragmentation under load. During continuous tribological loading, less heterogenous damage is produced for tile structured samples. The findings are ascribed to the relief of induced coating stress by the tile structure, meaning a more resilient coating. [ABSTRACT FROM AUTHOR]

Published

2022

23. Comparison Study on Economic Load Dispatch Using Metaheuristic Algorithm.

Author

ARIBOWO, Widi

Subjects

*EMPLOYEE reviews, *ELECTRIC power distribution grids, *MATHEMATICAL optimization, *POWER transmission, *FUEL costs, *METAHEURISTIC algorithms

Abstract

This paper presents an approach to overcome economic load dispatch (ELD) using a metaheuristic algorithm. Economic load dispatch (ELD) is one of the most important problems in a power system, and solving it quickly is extremely important. The main problem that will be addressed in this paper is how to optimize the economy of the power grid with various operational limitations, the loss in transmission line power, and consider minimizing the fuel costs produced. In this study, some of the newest metaheuristics inspired by nature will be explored, namely Seagull Optimization Algorithm (SOA), Marine Predator Algorithm (MPA), Sine Tree-Seed Algorithm (STSA), Chimp Optimization Algorithm (ChOA), Equilibrium Optimizer (EO), and Giza Pyramids Construction (GPC). The performance appraisal of the method applied in this study was tested using 2 case studies, namely a system with 3 and 6 power system units. The results are presented by comparing between metaheuristic and mathematical methods. The experimental results is showed that the Sine Tree-Seed Algorithm (STSA) is presented the best performance with various case studies with constraints. [ABSTRACT FROM AUTHOR]

Published

2022

24. Real-Time Predictive Control for Chemical Distribution in Sewer Networks Using Improved Elephant Herding Optimization.

Author

Li, Jiuling, Li, Wei, Chang, Xiaomin, Sharma, Keshab, and Yuan, Zhiguo

Abstract

As a critical infrastructure of urban water systems, sewer networks suffer from serious corrosion and odor problems, which can be controlled by chemical dosing. It is a challenging task to optimize chemical distribution in such a hybrid system with continuous hydraulic flow, discrete pump operations, and dynamic constraints. In this article, we study real-time control of multiple pumps to achieve the desired chemical distribution in a sewer network. A novel hybrid optimization approach is developed, which involves an event-triggered scheme triggered by predicting proper pumping events at uncontrolled pumping stations, and an improved nature-inspired elephant herding optimization (iEHO) algorithm for scheduling pumping at controllable pumping stations. The proposed method is validated through simulation studies of a real-life sewer network using real measured data. Our strategy significantly improves chemical distribution with reduced costs, despite an astronomic searching space. The iEHO algorithm outperforms the genetic algorithm in terms of the quality of solutions and convergence efficiency. [ABSTRACT FROM AUTHOR]

Published

2022

25. Nature Inspired Thermomechanical Treatment to Investigate the Mechanical Properties of AISI 1040

Author

Abid Faiza, Hussain Azhar, Asif Raza Muhammad, and Hassan Askari Ghulam

Subjects

nature inspired, tmt, forging, impact strength, hardness, microstructure, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Strengthening of metals as a function of metal working and thermal treatment is being utilized effectively in steel structures. Effect on strength beyond thermomechanical treatment has been the focus of this research by imprinting a nature inspired pattern on one side of the sheet metal. Pangolin scale pattern overlapped on AISI 1040 sheet metal while preserving its base treatment. Microstructure, impact toughness, hardness, and tensile strength with notch opposite to worked side was investigated after forging and post forging heat-treatment. After heating at 800°C, overlapping patterned forging was done on one side of two plates and then subsequently cooled in two ways, air cooled, and water quenched. To analyze the effect of forging and heat treatment, Charpy impact, UTS, hardness tests, and metallography were carried out on the heat treated (forged + quenched), untreated (forged + air cooled) and base (as received) specimens. The Room temperature Charpy test showed that the untreated specimen has the highest impact toughness of 120 J as that of the base and heat-treated specimen, 44 J and 60 J respectively. The heat-treated specimen showed an increase in macro and micro hardness than for the base and untreated specimens. Whereas the UTS has dropped in untreated and heat-treated specimens as compared to the base specimen, because in tensile test load is applied uniformly throughout the specimen so the stress concentrations in the unforged side of the metal higher than the side which is forged with overlapping patterns.

Published

2023

26. Pelican Optimization Algorithm: A Novel Nature-Inspired Algorithm for Engineering Applications

Author

Pavel Trojovský and Mohammad Dehghani

Subjects

optimization, nature inspired, swarm intelligence, optimization problem, pelican, population-based algorithm, Chemical technology, TP1-1185

Abstract

Optimization is an important and fundamental challenge to solve optimization problems in different scientific disciplines. In this paper, a new stochastic nature-inspired optimization algorithm called Pelican Optimization Algorithm (POA) is introduced. The main idea in designing the proposed POA is simulation of the natural behavior of pelicans during hunting. In POA, search agents are pelicans that search for food sources. The mathematical model of the POA is presented for use in solving optimization issues. The performance of POA is evaluated on twenty-three objective functions of different unimodal and multimodal types. The optimization results of unimodal functions show the high exploitation ability of POA to approach the optimal solution while the optimization results of multimodal functions indicate the high ability of POA exploration to find the main optimal area of the search space. Moreover, four engineering design issues are employed for estimating the efficacy of the POA in optimizing real-world applications. The findings of POA are compared with eight well-known metaheuristic algorithms to assess its competence in optimization. The simulation results and their analysis show that POA has a better and more competitive performance via striking a proportional balance between exploration and exploitation compared to eight competitor algorithms in providing optimal solutions for optimization problems.

Published

2022

27. An Analytical Study of Multiprocessor Scheduling Using Metaheuristic Approach

Author

Acharya, Biswaranjan, Panda, Sucheta, and Sivakumar, Eashwar

Published

2022

28. Nature‐Inspired Electrocatalysts for CO2 Reduction to C2+ Products (Adv. Energy Mater. 48/2023).

Author

Xu, Linlin, Trogadas, Panagiotis, and Coppens, Marc‐Olivier

Subjects

*ELECTROCATALYSTS, *METALLOENZYMES, *CARBON dioxide, *ATOMS, *INSPIRATION, *CATALYSTS, *ELECTROLYTIC reduction

Abstract

In the article "Nature-Inspired Electrocatalysts for CO2 Reduction to C2+ Products," the authors explore how the electroreduction of CO2 can be improved by drawing inspiration from nature. They discuss various factors that can enhance the selective electroreduction of CO2 to valuable products with two carbon atoms or more, such as metalloenzymes, cascade reactions, superhydrophobicity, and air-bubble collecting spiders. However, the authors emphasize the need for a systematic nature-inspired solution methodology rather than simply copying nature in order to achieve higher yields and stability. [Extracted from the article]

Published

2023

29. Additively Manufactured Nature Inspired Morphology for Redesign: Advancing Next Generation Energy Systems

Author

Singh, Vanshika

Subjects

Additive Manufacturing, Nature Inspired, Gas Turbines, Cooling Channel, Deposition, Structural Design, Energy Systems, Heat Transfer, Combustion, Manufacturing

Abstract

To meet cleaner energy goals and increasing demand, energy systems such as gas turbines and power plants are required to be operated under harsh loading conditions like higher temperatures and pressures, fluctuating loads, and corrosive environments. Advanced manufacturing techniques such as additive manufacturing (AM) have put us on the trajectory for next-generation system designs, allowing complex geometries and high-temperature alloys with tailored material properties. We need new and systematic design philosophies to use AM's unique characteristics prudently. For a given functionality, nature tends to provide similar solutions in animate and inanimate structures. We propose to take inspiration from nature's repetitive solutions and implement them for real-world applications for the next-generation system. In this dissertation, we first identify a structured approach and consequently categorize these repetitive solutions as a class of solutions for a given functionality. The class of solutions is devised and optimized while solving two real-world problems. The first problem is ash deposition, which is common for different components in power plants and gas turbines. To reduce deposition in power plants on superheater tubes, we propose to leverage an aerodynamically shaped tube, one of the solutions from the classes offered by nature, introducing a macro-level morphology change leveraging the laser powder bed fusion method. The proposed shaped tube performed better than circular tubes in providing more laminar flow around the tube, thus reducing the propensity of ash deposition. Additionally, we also showed how to reduce the circumferential thermal stress, potentially improving the tube's creep life. The second problem is introducing cooling channels for high-pressure turbine applications. Similar to solutions existing in nature, where heat exchange is enhanced by modifying the surface texture, we propose to modify the surface morphology of the internal cooling wall by introducing multiscale micro features enabled through laser powder bed fusion to enhance the surface area and thus improve heat transfer. The proposed design demonstrates designs that are better than AM internal cooling channel designs previously discussed in the literature. We recommend emulating nature's governing approach for repeating its solution in varying-sized creatures through certain laws. We suggest generalizing solutions for differently sized components by identifying relationships between design parameters and component size. To our knowledge, this is one of the first works that attempts to codify and validate a nature-inspired design strategy for high-temperature applications.

Published

2023

30. Unravelling the physics and mechanisms behind slips and falls on icy surfaces: A comprehensive review and nature-inspired solutions.

Author

Richhariya, Vipin, Tripathy, Ashis, Carvalho, Oscar, Julker Nine, Md, Losic, Dusan, and Silva, F.S.

Subjects

*ACCIDENTAL falls, *ARCTIC fox, *ICING (Meteorology), *POLAR bear, *EVIDENCE gaps, *GECKOS

Abstract

Scheme. While humans are vulnerable to slipping on ice and snow, many animals have the intrinsic ability to resist slips and fall on these slippery surfaces. [Display omitted] • This comprehensive review addressing slips and falls on icy/snowy surfaces during winters and their repercussions. • The reasons, physics, and mechanisms of slipping on ice especially formation of quasi liquid layer are discussed in detail. • The mechanisms and designs on anti-slipping nature-inspired surfaces based on different adhesion/deadhesion are presented. • Eight animals that do not slip are presented revealing the materials, mechanism, and structural designs of their anti-slipping. • The review provides new insight into developing advanced nature-inspired shoe-sole by addressing current challenges and research gaps. Slip and Fall (SF) on slippery icy/snowy surfaces during winters is evident worldwide, especially in Nordic regions. Every year millions of people slip and fall due to ice accretion on the roads, streets, and pavements causing traumatic injuries, loss of limbs, and sometime loss of lives, costing billions in hospitals and recovery. An efficient anti-slipping winter shoe-sole could prevent these accidents and save lives. Footwear industries came up with solutions such like crampons, cleats, anti-skidding materials and tread pattern designs, but with limited success because of their ineffectiveness on wet ice, quick rate of wearing. The inspiration from nature like polar bear, seal, arctic fox, penguin, snake, octopus, frog, and gecko where this problem is elegantly solved through evolution process can address these limitations and design advanced anti-slippery surfaces. The review presents a comprehensive understanding of biological designs of the footpads (polar bear, penguin, arctic fox, frog, gecko) and skins (seal, snake, octopus' suction cups) and recent progress on their translation for practical applications. The review emphasises on the mechanisms of icy slippery surfaces and the contact surfaces (shoe-sole and ice/snow) to mimic anti-slipping mechanism of animals and their movement on ice enabling to design the finest anti-slipping winter shoe-soles. [ABSTRACT FROM AUTHOR]

Published

2023

31. Nature- Inspired Identity: The Quest for Wholeness in Chenjerai Hove’s Blind Moon

Subjects

Ecopoetry, Poetry, Ecocriticism, Humanity, Identity (social science), Sociology, Nature inspired, Theology

Abstract

This paper attempts to examine the use of environmental elements to represent natural features in the poetry of Chenjerai Hove (1956- 2015) and specifically in his book Blind Moon (2003). It illustrates a theoretical background on ecocriticism and ecopoetry as tools to show how Hove explored and expressed humanity’s quest for identity and a place on Earth and examining his poetry in this way sheds light on the idea of ‘nature’ and investigates several questions regarding our interconnectedness and relatedness. Hove is a Zimbabwean poet who wrote extensively on Africa, nature, heritage and the preservation of one’s identity. He always makes use of African and Zimbabwean traditions and conventions. Hove's poetry offers a close investigation of the psychological and social views of nature and the rural areas and features. He died in 2015while living in exile in Norway. after fiercely rejecting the policies of the Mugabe authority. This paper attempts to examine selected poems by Hove from Blind Moon using ecocriticism approach in order to answer the following questions: 1. What is meant by ecocriticism? 2. What are the environmental issues inscribed in his poems? 3. What elements of thought could be identified about human responsibility towards environment in the poem? المستخلص باللغة العربية يحاول هذا البحث دراسة العناصر البيئية لتمثيل السمات الطبيعية المستخدمة في أشعار الشاعر تشينجيراي هوف (1956-2015) وبالتحديد في کتابه (قمر أعمي) الصادر عام 2003 . يوضح البحث خلفية نظرية حول النقد البيئي والشعر البيئي کأدوات لإظهار کيفية استکشاف "هوف" للبيئة للتعبير عن سعي البشرية للهوية ومکان أفضل نقاء على الأرض. کان هوف شاعرا من زيمبابوي و کتب کثيرا عن إفريقيا والطبيعة والتراث والحفاظ على هوية الفرد ، علي الرغم من أنه کاتب متعدد المواهب فقد کتب الکثير من المقالات، الروايات، القصص القصيرة و الأشعار و قد بدأ مسيرته الأدبية کشاعر. إعتاد "هوف" على التعريف بشکل مکثف بالتقاليد والأعراف الأفريقية الأصيلة. توفي "هوف" في عام 2015 أثناء وجوده في المنفى بالنرويج بسبب معارضته الشديدة ونقده اللاذع لسياسات حکومة موغابي. تحاول هذه الورقة فحص قصائد مختارة لهوف من مجلد" قمر أعمي" باستخدام نهج النقد البيئي للإجابة على الأسئلة التالية: 1. ماذا يقصد بالنقد البيئي؟ 2 . ما هي القضايا البيئية المدرجة في قصائده؟ 3 . ما هي عناصر البيئة التي يمکن تحديدها حول مسؤولية الإنسان في قصائده؟

Published

2022

32. Nature-inspired texture pattern for cutting tool tribological surface modification: A state of art

Author

Jagadish and Dheeraj Lal Soni

Subjects

Materials science, Cutting tool, business.industry, State of art, Surface modification, Computer vision, Artificial intelligence, Tribology, Nature inspired, business, Texture (geology)

Published

2022

33. Nature-inspired micro/nanomotors

Author

Dekai Zhou, Feng Yiwen, Longqiu Li, Bin Guo, and Xiaocong Chang

Subjects

Preparation method, Materials science, Animals, Humans, Nanotechnology, General Materials Science, Swarm behavior, Nature inspired

Abstract

Living things in nature have evolved with unique morphologies, structures, materials, behaviors, and functions to survive in complex natural environments. Nature has inspired the design ideas, preparation methods, and applications of versatile micro/nanomotors. This review summarizes diverse nature-inspired micro/nanomotors, which can be divided into five groups: (i) natural morphology-inspired micro/nanomotors, whose shapes are designed to imitate the morphologies of plants, animals, and objects in nature. (ii) Natural structure-inspired micro/nanomotors, which use structures from plants, red blood cells, and platelet cells as components of micro/nanomotors, or directly use sperm cells and microorganisms as the engines of micro/nanomotors. (iii) Natural behavior-inspired micro/nanomotors, which are proposed to mimic natural behaviors such as motion behavior, swarm behavior, and communication behavior between individuals. (iv) Micro/nanomotors inspired by both natural morphology and behavior. Nature makes it possible for synthetic micro/nanomotors to possess interesting morphologies, novel preparation methods, new propulsion modes, innovative functions, and broad applications. The nature-inspired micro/nanomotors could provide a promising platform for various practical fields.

Published

2022

34. Nature Inspired MXene-Decorated 3D Honeycomb-Fabric Architectures Toward Efficient Water Desalination and Salt Harvesting

Author

Xuqing Liu, Shifeng Zhu, Lili Wang, Kai Dong, Xueji Zhang, Lijun Qu, Zhiwei Lei, Xuantong Sun, and Xiansheng Zhang

Subjects

chemistry.chemical_classification, Technology, Materials science, Salt (chemistry), Honeycomb (geometry), Nanotechnology, 3D honeycomb fabric, Photothermal conversion, Article, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Water desalination, chemistry, Electrical and Electronic Engineering, Nature inspired, MXene, Salt harvesting

Abstract

The 3D honeycomb-like fabric decorated with MXene is woven as solar evaporator.The honeycomb structure enables light-trapping and recycling of convective and radiative heat.The 3D honeycomb-fabric evaporator possesses high solar efficiency up to 93.5% under 1 sun irradiation and excellent salt harvesting ability. Solar steam generation technology has emerged as a promising approach for seawater desalination, wastewater purification, etc. However, simultaneously achieving superior light absorption, thermal management, and salt harvesting in an evaporator remains challenging. Here, inspired by nature, a 3D honeycomb-like fabric decorated with hydrophilic Ti3C2Tx (MXene) is innovatively designed and successfully woven as solar evaporator. The honeycomb structure with periodically concave arrays creates the maximum level of light-trapping by multiple scattering and omnidirectional light absorption, synergistically cooperating with light absorbance of MXene. The minimum thermal loss is available by constructing the localized photothermal generation, contributed by a thermal-insulating barrier connected with 1D water path, and the concave structure of efficiently recycling convective and radiative heat loss. The evaporator demonstrates high solar efficiency of up to 93.5% and evaporation rate of 1.62 kg m−2 h−1 under one sun irradiation. Moreover, assisted by a 1D water path in the center, the salt solution transporting in the evaporator generates a radial concentration gradient from the center to the edge so that the salt is crystallized at the edge even in 21% brine, enabling the complete separation of water/solute and efficient salt harvesting. This research provides a large-scale manufacturing route of high-performance solar steam generator. Supplementary Information The online version contains supplementary material available at 10.1007/s40820-021-00748-7.

Published

2021

35. Nature‐Inspired Substrate‐Independent Omniphobic and Antimicrobial Slippery Surfaces

Author

Gary J. Sharples, Jas Pal Singh Badyal, Colin P. Gibson, and Harrison J. Cox

Subjects

Materials science, General Materials Science, Nanotechnology, Nature inspired, Substrate (biology), Condensed Matter Physics, Antimicrobial

Abstract

Inspired by the carnivorous Nepenthes pitcher plant, a range of highly liquid repellent lubricant-infused surfaces has been devised (low water droplet contact angle hysteresis and sliding angle values). This entails matching functional pulsed plasma polymer nanolayers with appropriate slippery lubricants. A molecular-level structure–behavior relationship is developed, highlighting the importance of favorable aromatic–aliphatic intermolecular interactions between the coating and lubricant. Fluorinated lubricant-infused pulsed plasma polymer nanocoatings resist wetting by liquids, spanning a wide range of surface tensions (including pentane, motor oil, and water, i.e., omniphobicity). In the case of natural antimicrobial compound-infused functional plasma polymer surfaces (e.g., the essential oil cinnamaldehyde), multifunctional performance is attained combining high liquid repellency (self-cleaning) with simultaneous strong antibacterial activity against both Gram-positive Staphylococcus aureus and Gram-negative Escherichia coli (log10 reduction > 7). In addition, these lubricant-infused functional pulsed plasma polymer surfaces easily repel a variety of everyday liquids (including foodstuffs such as tomato ketchup and honey).

Published

2022

36. Nature-Inspired Techniques for Dynamic Constraint Satisfaction Problems

Author

Malek Mouhoub and Mehdi Bidar

Subjects

Mathematical optimization, Control and Optimization, Computer science, Applied Mathematics, Economics, Econometrics and Finance (miscellaneous), Nature inspired, Constraint satisfaction problem, Computer Science Applications

Abstract

Combinatorial applications such as configuration, transportation and resource allocation, often operate under highly dynamic and unpredictable environments. In this regard, one of the main challenges is to maintain a consistent solution anytime constraints are (dynamically) added. While many solvers have been developed to tackle these applications, they often work under idealized assumptions of environmental stability. In order to address limitation, we propose a methodology, relying on nature-inspired techniques, for solving constraint problems when constraints are added dynamically. The choice for nature-inspired techniques is motivated by the fact that these are iterative algorithms, capable of maintaining a set of promising solutions, at each iteration. Our methodology takes advantage of these two properties, as follows. We first solve the initial constraint problem and save the final state (and the related population) after obtaining a consistent solution. This saved context will then be used as a resume point for finding, in an incremental manner, new solutions to subsequent variants of the problem, anytime new constraints are added. More precisely, once a solution is found, we resume from the current state to search for a new one (if the old solution is no longer feasible), when new constraints are added. This can be seen as an optimization problem where we look for a new feasible solution satisfying old and new constraints, while minimizing the differences with the solution of the previous problem, in sequence. This latter objective ensures to find the least disruptive solution, as this is very important in many applications including scheduling, planning and timetabling. Following on our proposed methodology, we have developed the dynamic variant of several nature-inspired techniques to tackle dynamic constraint problems. Constraint problems are represented using the well-known Constraint Satisfaction Problem (CSP) paradigm. Dealing with constraint additions in a dynamic environment can then be expressed as a series of static CSPs, each resulting from a change in the previous one by adding new constraints. This sequence of CSPs is called the Dynamic CSP (DCSP). To assess the performance of our proposed methodology, we conducted several experiments on randomly generated DCSP instances, following the RB model. The results of the experiments are reported and discussed.

Published

2022

37. Pelican Optimization Algorithm: A Novel Nature-Inspired Algorithm for Engineering Applications

Author

Pavel Trojovský and Mohammad Dehghani

Subjects

population-based algorithm, swarm intelligence, Chemical technology, TheoryofComputation_GENERAL, TP1-1185, nature inspired, Models, Theoretical, Biochemistry, Atomic and Molecular Physics, and Optics, Analytical Chemistry, optimization, optimization problem, pelican, stochastic, Computer Simulation, Electrical and Electronic Engineering, Instrumentation, Algorithms

Abstract

Optimization is an important and fundamental challenge to solve optimization problems in different scientific disciplines. In this paper, a new stochastic nature-inspired optimization algorithm called Pelican Optimization Algorithm (POA) is introduced. The main idea in designing the proposed POA is simulation of the natural behavior of pelicans during hunting. In POA, search agents are pelicans that search for food sources. The mathematical model of the POA is presented for use in solving optimization issues. The performance of POA is evaluated on twenty-three objective functions of different unimodal and multimodal types. The optimization results of unimodal functions show the high exploitation ability of POA to approach the optimal solution while the optimization results of multimodal functions indicate the high ability of POA exploration to find the main optimal area of the search space. Moreover, four engineering design issues are employed for estimating the efficacy of the POA in optimizing real-world applications. The findings of POA are compared with eight well-known metaheuristic algorithms to assess its competence in optimization. The simulation results and their analysis show that POA has a better and more competitive performance via striking a proportional balance between exploration and exploitation compared to eight competitor algorithms in providing optimal solutions for optimization problems.

Published

2021

38. Nature-inspired trapped air cushion surfaces for environmentally sustainable antibiofouling.

Author

Rawlinson, Joe M., Cox, Harrison J., Hopkins, Grant, Cahill, Patrick, and Badyal, Jas Pal S.

Subjects

*DUCKS, *MALLARD, *SOLID-liquid interfaces, *CONTACT angle, *NONWOVEN textiles, *FOULING, *COLOR of birds

Abstract

Feathers of seabirds and waterfowl (for example the mallard duck (Anas platyrhynchos)) consist of hierarchical fibrillar structures encapsulated with hydrophobic preen oil. These characteristics afford waterproofing through the entrapment of air pockets, enabling swimming and diving for such bird species. This liquid repellency mechanism for bird feathers is mimicked by surface hydrophobisation of fibrous nonwoven polypropylene textiles to create large volumes of trapped air at the solid–liquid interface (plastron). Higher static water contact angle values correlate to a greater resistance towards water ingress (akin to the behaviour of mallard feathers). In order to extend the trapped gas layer lifetimes, the transportation of air from the water surface to a submerged air bubble by the diving bell spider (Argyroneta aquatica) for respiration is mimicked via short duration (< 1 s) solar-powered air bubble bursts once every 2 h. This combination of ornithological and arachnological inspired approaches yields stable trapped gas layers at the solid–liquid interface which are shown to inhibit biofouling in real-world outdoor wet environments. [Display omitted] • Bioinspiration from mallard duck feathers and the diving bell spider. • Fabrication of trapped surface air layers. • Long lasting and environmentally sustainable antibiofouling. [ABSTRACT FROM AUTHOR]

Published

2023

39. Reptile Search Algorithm (RSA): A nature-inspired meta-heuristic optimizer

Author

Amir H. Gandomi, Laith Abualigah, Putra Sumari, Mohamed Abd Elaziz, and Zong Woo Geem

Subjects

Optimization algorithm, business.industry, Computer science, General Engineering, Machine learning, computer.software_genre, Computer Science Applications, Ranking (information retrieval), Artificial Intelligence, Search algorithm, Benchmark (computing), Meta heuristic, Artificial intelligence, Nature inspired, business, computer

Abstract

This paper proposes a novel nature-inspired meta-heuristic optimizer, called Reptile Search Algorithm (RSA), motivated by the hunting behaviour of Crocodiles. Two main steps of Crocodile behaviour are implemented, such as encircling, which is performed by high walking or belly walking, and hunting, which is performed by hunting coordination or hunting cooperation. The mentioned search methods of the proposed RSA are unique compared to other existing algorithms. The performance of the proposed RSA is evaluated using twenty-three classical test functions, thirty CEC2017 test functions, ten CEC2019 test functions, and seven real-world engineering problems. The obtained results of the proposed RSA are compared to various existing optimization algorithms in the literature. The results of the tested three benchmark functions revealed that the proposed RSA achieved better results than the other competitive optimization algorithms. The results of the Friedman ranking test proved that the RSA is a significantly superior method than other comparative methods. Finally, the results of the examined engineering problems showed that the RSA obtained better results compared to other various methods.

Published

2022

40. Nature-inspired dynamic gene-loaded nanoassemblies for the treatment of brain diseases

Author

Ruichen Zhao, Yan Li, Weihong Ji, Huan Peng, and Xin Zhang

Subjects

Biological Products, Brain Diseases, Drug Carriers, Stimuli responsive, Computer science, Biological particles, Pharmaceutical Science, Genetic Therapy, Brain disease, Humans, Nanoparticles, Nature inspired, Neuroscience, Gene, Phytotherapy

Abstract

Gene therapy has great potential to treat brain diseases. However, genetic drugs need to overcome a cascade of barriers for their full potential. The conventional delivery systems often struggle to meet expectations. Natural biological particles that are highly optimized for specific functions in body, can inspire optimization of dynamic gene-loaded nanoassemblies (DGN). The DGN refer to gene loaded nanoassemblies whose functions and structures are changeable in response to the biological microenvironments or can dynamically interact with tissues or cells. The nature-inspired DGN can meet the needs in brain diseases treatment, including i) Non-elimination in blood (N), ii) Across the blood-brain barrier (A), iii) Targeting cells (T), iv) Efficient uptake (U), v) Controllable release (R), vi) Eyeable (E)-abbreviated as the "NATURE". In this Review, from nature to "NATURE", we mainly summarize the specific application of nature-inspired DGN in the "NATURE" cascade process. Furthermore, the Review provides an outlook for this field.

Published

2022

41. The Journey of Water Remediation through Biomimetic Strategies: A Mechanistic Insight

Author

Nagarajan Padmavathy, Ria Sen Gupta, and Suryasarathi Bose

Subjects

Membrane, Fouling, Chemistry, Renewable Energy, Sustainability and the Environment, Environmental chemistry, Halophyte, Groundwater remediation, Aquaporin, Nature inspired, General Environmental Science

Published

2021

42. Innovative nanomaterials for energy storage: Moving toward nature-inspired systems

Author

Zeid A. ALOthman, Daily Rodríguez-Padrón, Rafael Luque, and Alina M. Balu

Subjects

Computer science, Process Chemistry and Technology, Nanotechnology, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Durability, Catalysis, Energy storage, 010406 physical chemistry, 0104 chemical sciences, Nanomaterials, Chemistry (miscellaneous), High complexity, Energy density, Nature inspired, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

The current needs of finding more efficient materials with tunable properties have served as a motivation for the scientific community to move toward nature-inspired hierarchical materials adhering to the green analytical chemistry principles also because of the high complexity and efficiency of systems in nature. Such type of materials has exhibited highly dynamic interfacial interactions, which are outstandingly valuable for sensing and energy storage applications. Nature-based systems have displayed remarkable features, in terms of energy density, coulombic efficiency behavior, cycling stability energy, durability, and sensitivity. More interestingly, the aforementioned properties could be tuned by modifying the interfacial interactions within the material components. Along this contribution, recent developments on the design of green analytical nature-inspired hierarchical materials will be addressed, especially paying attention to the relationship between interfacial interactions and material features.

Published

2021

43. Dynamic Biomolecular "Mask" Stabilizes Zn Anode.

Author

Li Y, Wang Y, Xu Y, Tian W, Wang J, Cheng L, Yue H, Ji R, Zhu Q, Yuan H, and Wang H

Subjects

Electrodes, Zinc, Manganese Compounds, Oxides

Abstract

Zn anode is confronted with serious Zn dendrite growth and water-induced parasitic reactions, which severely hinders the rapid development and practical application of aqueous zinc metal batteries (AZMBs). Herein, inspired by sodium hyaluronate (SH) biomolecules in living organisms featured with the functions of water retention, ion-transport regulation, and film-formation, the SH working as a dynamic and self-adaptive "mask" is proposed to stabilize Zn anode. Benefiting from the abundant functional groups with high hydrophilicity and zincophilicity, SH molecule can constrain active water molecules on the Zn-electrolyte interface and participate in Zn 2+ solvation structure to suppress parasitic reactions. Furthermore, the dynamical adsorption of SH with high-density negative charge on the Zn surface could serve as Zn 2+ reservoirs to guide uniform Zn deposition. Consequently, stable Zn plating and an ultrahigh cumulative plating capacity (CPC) of 4.8 Ah cm -2 are achieved even at 20 mA cm -2 (20 mAh cm -2 ) in a Zn||Zn symmetric battery, reaching a record level in AZMBs. In addition, the Zn||β-MnO 2 full battery exhibits a substantially improved cycle stability. This work presents a route to realize a highly reversible and stable Zn metal anode by learning from nature., (© 2022 Wiley-VCH GmbH.)

Published

2022

44. Pelican Optimization Algorithm: A Novel Nature-Inspired Algorithm for Engineering Applications.

Author

Trojovský, Pavel and Dehghani, Mohammad

Subjects

*MATHEMATICAL optimization, *SEARCH engines, *ALGORITHMS, *BLUEGRASSES (Plants), *MULTIMODAL user interfaces, *ENGINEERING design, *METAHEURISTIC algorithms, *BEES algorithm

Abstract

Optimization is an important and fundamental challenge to solve optimization problems in different scientific disciplines. In this paper, a new stochastic nature-inspired optimization algorithm called Pelican Optimization Algorithm (POA) is introduced. The main idea in designing the proposed POA is simulation of the natural behavior of pelicans during hunting. In POA, search agents are pelicans that search for food sources. The mathematical model of the POA is presented for use in solving optimization issues. The performance of POA is evaluated on twenty-three objective functions of different unimodal and multimodal types. The optimization results of unimodal functions show the high exploitation ability of POA to approach the optimal solution while the optimization results of multimodal functions indicate the high ability of POA exploration to find the main optimal area of the search space. Moreover, four engineering design issues are employed for estimating the efficacy of the POA in optimizing real-world applications. The findings of POA are compared with eight well-known metaheuristic algorithms to assess its competence in optimization. The simulation results and their analysis show that POA has a better and more competitive performance via striking a proportional balance between exploration and exploitation compared to eight competitor algorithms in providing optimal solutions for optimization problems. [ABSTRACT FROM AUTHOR]

Published

2022