This paper presents a new swarm intelligencebased metaheuristic called a three-on-three optimizer (TOTO). This name is chosen based on its novel mechanism in adopting multiple searches into a single metaheuristic. These multiple searches consist of three guided searches and three random searches. These three guided searches are searching toward the global best solution, searching for the global best solution to avoid the corresponding agent, and searching based on the interaction between the corresponding agent and a randomly selected agent. The three random searches are the local search of the corresponding agent, the local search of the global best solution, and the global search within the entire search space. TOTO is challenged to solve the classic 23 functions as a theoretical optimization problem and the portfolio optimization problem as a real-world optimization problem. There are 13 bank stocks from Kompas 100 index that should be optimized. The result indicates that TOTO performs well in solving the classic 23 functions. TOTO can find the global optimal solution of eleven functions. TOTO is superior to five new metaheuristics in solving 17 functions. These metaheuristics are grey wolf optimizer (GWO), marine predator algorithm (MPA), mixed leader-based optimizer (MLBO), golden search optimizer (GSO), and guided pelican algorithm (GPA). TOTO is better than GWO, MPA, MLBO, GSO, and GPA in solving 22, 21, 21, 19, and 15 functions, respectively. It means TOTO is powerful to solve highdimension unimodal, multimodal, and fixed-dimension multimodal problems. TOTO performs as the second-best metaheuristic in solving a portfolio optimization problem.
In this work, a new metaheuristic algorithm, namely the hybrid pelican Komodo algorithm (HPKA), has been proposed. This algorithm is developed by hybridizing two shortcoming metaheuristic algorithms: the Pelican Optimization Algorithm (POA) and Komodo Mlipir Algorithm (KMA). Through hybridization, the proposed algorithm is designed to adapt the advantages of both POA and KMA. Several improvisations regarding this proposed algorithm are as follows. First, this proposed algorithm replaces the randomized target with the preferred target in the first phase. Second, four possible movements are selected stochastically in the first phase. Third, in the second phase, the proposed algorithm replaces the agent's current location with the problem space width to control the local problem space. This proposed algorithm is then challenged to tackle theoretical and real-world optimization problems. The result shows that the proposed algorithm is better than grey wolf optimizer (GWO), marine predator algorithm (MPA), KMA, and POA in solving 14, 12, 14, and 18 functions. Meanwhile, the proposed algorithm creates 109%, 46%, 47%, and 1% better total capital gain rather than GWO, MPA, KMA, and POA, respectively in solving the portfolio optimization problem.
Kegiatan investasi saat ini menjadi salah satu alternatif pengelolaan keuangan bagi masyarakat. Karena dengan adanya investasi mampu menjalankan kembali roda perekonomian yang sempat menurun karena akibat dari kejadian Covid-19. Dengan adanya investasi ini dapat memberikan keuntungan bagi investor dalam jangka panjang. Investasi ini dapat memberikan kemudahan bagi masyarakat maupun pihak pemerintah yang membutuhkan bantuan dana investor untuk pembangunan proyek yang memberikan manfaat bagi khalayak umum. Pada saat ini penyelenggaraan investasi pada pemerintah daerah masih sangat terbatas dalam proses publikasi dan pendataannya. Sehingga beberapa proyek yang tertunda karena terkendala dana dari investor. Untuk menyelesaikan permasalahan tersebut maka diperlukan penelitian yang memiliki tujuan untuk mewadahi informasi peluang dan potensi investasi berbasis website untuk memudahkan para investor menemukan peluang investasi di Bandung. Metode waterfall digunakan dalam pengembangan sistem informasi potensi dan peluang investasi ini. Penelitian ini menghasilkan sebuah sistem yang mampu mengelola dan menginformasikan. Hasil pengujian sistem menggunakan blackbox testing mendapat hasil 100% menampilkan bahwa sistem investasi dapat berjalan sesuai target awal pembuatan sistem.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.