Search Results - (algorithmic OR algorithm) vias~

An exact algorithm to solve a cloud service bilevel problem. by López Vear, Lilian

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An exact algorithm to solve a cloud service bilevel problem. by López Vear, Lilian

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Algorithm for Screening of Adrenal Function in Stable Patients with Cirrhosis by Paz Delgadillo, Jonathan, Monreal Robles, Roberto, Villarreal Pérez, Jesús Zacarías, Lavalle González, Fernando Javier, Maldonado Garza, Héctor Jesús, Bosques Padilla, Francisco Javier

“…We aimed to assess the presence of AI in stable patients with cirrhosis using the gold-standard insulin tolerance test (ITT) and to propose an algorithm for screening AI in these patients. Material and methods. …”
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MACVIA clinical decision algorithm in adolescents and adults with allergic rhinitis by Bousquet, Jean J., Schünemann, Holger J., Hellings, Peter W., Arnavielhe, Sylvie, Bachert, Claus, Bedbrook, Anna, Bergmann, Karl Christian, Bosnic Anticevitch, Sinthia, Brozek, Jan L., Calderón, Moisés, Canonica, Giorgio Walter, Casale, Thomas B., Chavannes, Niels H., Cox, Linda, Chrystyn, Henry, Cruz, Álvaro A., Dahl, Ronald, De Carlo, Giuseppe, Demoly, Pascal, Devillier, Phillipe, Dray, Gérard, Fletcher, Monica, Fokkens, Wytske J., Fonseca, Joao A., González Díaz, Sandra Nora, Grouse, Lawrence, Keil, Thomas, Kuna, Piotr, Larenas Linnemann, Désirée, Lodrup Carlsen, Karin C., Meltzer, E. O., Mullol, Jaoquim, Muraro, Antonella, Naclerio, Robert N., Palkonen, Susanna, Papadopoulos, Nikolaos G., Passalacqua, Giovanni, Price, David, Ryan, Dermot, Samolinski, Boleslaw, Scadding, Glenis K., Sheikh, Aziz, Spertini, François, Valiulis, Arunas, Valovirta, Erkka, Walker, Samantha, Wickman, Magnus, Yorgancioglu, Arzu, Haahtela, Tari, Zuberbier, Torsten, Aberer, Werner, Adachi, Mitsuru, Agache, Ioana, Akdis, Cezmi, Akdis, Mubeccel, Annesi Maesano, Isabella, Ansotegui, Ignacio J., Anto, Josep M., Arshad, S. Hasan, Baiardini, Ilaria, Baigenzhin, Abay K., Barbara, Cristina, Bateman, Eric D., Beghé, Bianca, Bel, Elisabeth H., Ben Kheder, Ali, Bennoor, Kazi S., Benson, Michael, Bernstein, David, Michael, Bewick, Thomas, Bieber, Bindslev Jensen, Carsten, Bjermer, Leif, Blain, Hubert, Boner, Attilio, Bonini, Matteo, Bonini, Sergio, Bosse, Isabelle, Bouchard, Jacques, Boulet, Louis Philippe, Bourret, Rodolphe A., Bousquet, Philippe J., Braido, Fulvio, Briggs, Andrew H., Brightling, Christopher E., Buhl, Roland, Burney, Peter G., Bush, Andrew, Caballero Fonseca, Fernando, Caimmi, Davide P., Camargos, Paulo, Camuzat, Thierry, Carlsen, Kai Hakon, Carr, Warner, Casale, Thomas B., Sarabia, Alfonso Cepeda, Chatzi, Leda, Chen, Yuzhi Z., Chiron, Raphaël, Chkhartishvili, Ekaterine, Chuchalin, Alexander G., Ciprandi, Georgio, Cirule, Ieva, Correia de Sousa, Jaime, Costa, David J., Crooks, George, Custovic, Adnan, Dahlen, Sven Erik, Darsow, Ulf, De Blay, Frédéric, De Manuel Keenoy, Esteban, Dedeu, Tony, Deleanu, Diana, Denburg, Judah, Didier, Alain, Dinh Xuan, Anh Tuan, Dokic, Dejan, Douagui, Habib B., Dubakiene, Ruta, Durham, Stephen R., Dykewicz, Mark S., El Gamal, Yehia, Emuzyte, Regina, Fink Wagner, Antje H., Fiocchi, Alessandro, Forastiere, Francesco, Gamkrelidze, Amiran, Gemicioğlu, Bilun, Gereda, José E., Gerth van Wijk, Roy, Gotua, Maia, Grisle, Ineta, Guzmán Meléndez, María Antonieta, Haahtela, Tari, Heinrich, Joachim, Hellquist Dahl, Birthe, Horak, Friedrich, Howarth, Peter H., Humbert, Marc, Hyland, Michael E., Ivancevich, Juan Carlos, Jares, Edgardo José, Johnston, Sebastian L., Jonquet, Olivier, Joos, Guy, Jung, Ki Suck, Just, Jocelyne, Jutel, Marek, Kaidashev, Igor P., Khaitov, Musa R., Kalayci, Omer, Kalyoncu, Fuat, Keith, Paul K., Khaltaev, Nikolai, Kleine Tebbe, Jorg, Klimek, Ludger, N'Goran, Bernard Koffi, Kolek, Vítězslav, Koppelman, Gerard H., Kowalski, Marek L., Kull, Inger, Kvedariene, Violeta, Lambrecht, Bart, Lau, Susanne, Laune, Daniel, Le Thi Tuyet, Lan, Li, Jingmei, Lieberman, Phillipe, Lipworth, Brian J., Renaud, Louis, Magard, Yves, Magnan, Antoine, Mahboub, Bassam, Majer, Ivan, Makela, Mika, Manning, Peter J., Masjedi, Mohamad R., Maurer, Marcus, Mavale Manuel, Sandra, Melén, Erik, Melo Gomes, Elisabete, Mercier, Jacques, Merk, Hans, Miculinic, Neven, Mihaltan, Florin, Milenkovic, Branislava, Mohammad, Yousser, Molimard, Mathieu, Momas, Isabelle, Montilla Santana, Anna, Morais Almeida, Mario, Mösges, Ralph, Nadif, Rachel, Namazova Baranova, Leyla, Neffen, Hugo, Nekam, Kristof, Neou, Angelos, Niggemann, Bodo, Nyembue, T. Dieudonné, O'Hehir, Robyn E., Ohta, Ken, Okamoto, Yoshitaka, Okubo, Kim, Ouedraogo, Solange, Paggiaro, Pier Luigi, Pali Schöll, Isabella, Palmer, Stephen, Panzner, Petr, Papi, Alberto, Park, Hae Sim, Pavord, Ian, Pawankar, Ruby, Pfaar, Oliver, Picard, Robert, Pigearias, Bernard, Pin, Isabelle, Plavec, Davor, Pohl, Wolfgang, Popov, Todor A., Postma, Dirkje S., Potter, Paul, Poulsen, Lars K., Rabe, Klaus F., Raciborski, Filip, Pontal, Françoise Radier, Reitamo, Sakari, Repka Ramírez, Maria Susana, Robalo Cordeiro, Carlos, Roberts, Graham, Rodenas, Francisco, Rolland, Christine, Rodriguez, Miguel Roman, Romano, Antonino, Rosado Pinto, José, Rosario, Nelson A., Rosenwasser, Larry, Rottem, Menachem, Sánchez Borges, Mario, Sastre Dominguez, Joaquim, Schmid Grendelmeier, Peter, Serrano, Eli, Simons, F. Estelle R., Sisul Alvariza, Juan Carlos, Skrindo, Ingebjorg, Smit, Henriette A., Solé, Dirceu, Sooronbaev, Talant, Spranger, Otto, Stelmach, Raphael, Strandberg, Timo, Sunyer, Jordi, Thijs, C., Todo Bom, Ana Maria, Triggiani, Massimo, Valenta, Rudolf, Valero, Antonio L., Van Hage, Marianne, Vandenplas, Olivier, Vezzani, Giorgio, Vichyanond, Pakit, Viegi, Giovanni, Wagenmann, Martin, Wahn, Ulrich, De Yun, Wang, Williams, D. M., Wright, John, Yawn, Barbara P., Yiallouros, P. K., Yusuf, Osman M., Zar, Heather J., Zernotti, Mario, Zhang, Luo, Zhong, Nanshan, Zidarn, Mihaela

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Mathematical formulations and optimization algorithms for solving rich vehicle routing problems. by Palomo Martínez, Pamela Jocelyn

“…Therefore, a heuristic based on relinked local search and Variable Neighborhood Search (VNS) is proposed to approximate the Pareto front for large instances. …”
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Mathematical formulations and optimization algorithms for solving rich vehicle routing problems. by Palomo Martínez, Pamela Jocelyn

“…Therefore, a heuristic based on relinked local search and Variable Neighborhood Search (VNS) is proposed to approximate the Pareto front for large instances. …”
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New Algorithm Based on Sign Decomposition to Verify the Robust Stability Property for a Class of Linear Time-Delay Systems by Díaz Rodríguez, Iván D., Romero, Gerardo, Elizondo, Cesar

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An iterated greedy algorithm with variable neighborhood descent for the planning of specialized diagnostic services in a segmented healthcare system by Mendoza Gómez, Rodolfo, Ríos Mercado, Roger Z., Valenzuela Ocaña, Karla B.

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Construcción de corpus en entornos digitales: Estrategias mixtas para estudiar la comunicación política en X by Pérez Reséndiz, Enrique

Subjects: “…algorithmic bias…”
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Sistema de guía, navegación y retroalimentación para un misil tierra-aire a través de sistemas híbridos by Limón Díaz, Pedro Antonio

“…Once confirmed the data acquisition and the processes, we will proceed to co-integrate all the algorithms into a main one and test the platform with all the instruments. …”
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Sistema de guía, navegación y retroalimentación para un misil tierra-aire a través de sistemas híbridos by Limón Díaz, Pedro Antonio

“…Once confirmed the data acquisition and the processes, we will proceed to co-integrate all the algorithms into a main one and test the platform with all the instruments. …”
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Mapeo de Literatura sobre el Impacto de los LLM en la Gestión del Conocimiento: Tendencias y Desafíos. by García-López, Iván Miguel, Nájera-Ochoa, Jessica

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A Hybrid Metaheuristic-Based Approach for the Aerodynamic Optimization of Small Hybrid Wind Turbine Rotors by Herbert Acero, José F., Martínez Lauranchet, Jaime, Probst, Oliver, Méndez Díaz, Santos, Castillo Villar, Krystel K., Valenzuela Rendón, Manuel, Réthoré, Pierre Elouan

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Solving a green logistics bi-level bi-objective problem. by Maldonado Pinto, Carmen Sayuri

“…In other words, a swap between the best solutions from both populations in each generation is conducted. By doing this, the algorithm intends to find efficient solutions. The evolution performed in each population is done through a Biased Random Keys Genetic Algorithm( BRKGA). …”
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Solving a green logistics bi-level bi-objective problem. by Maldonado Pinto, Carmen Sayuri

“…In other words, a swap between the best solutions from both populations in each generation is conducted. By doing this, the algorithm intends to find efficient solutions. The evolution performed in each population is done through a Biased Random Keys Genetic Algorithm( BRKGA). …”
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Análisis de las estructuras de la red de vialidades basado en la conectividad de las calles by Flores Romero, María Erándi, Morales Agiss, Irving Omar, Sosa Compean, Liliana Beatriz

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Inteligencia Artificial, Diseño Emocional y Ética: Impacto en la construcción de la identidad de marca digital by Mejía Torres, Valeria

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Accessible location of mobile labs for COVID-19 testing by Villicaña Cervantes, Dianne Larissa, Ibarra Rojas, Omar Jorge

“…In response, we designed a Biased Random-Key Genetic Algorithm to solve the defned problem; this is capable of obtaining high-quality feasible solutions over large numbers of instances in seconds. …”
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Una mirada a la plataformización en México: Desde las transformaciones económicas hacia las socioculturales by Sued, Gabriela Elisa

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A Real-Time SOSM Super-Twisting Technique for a Compound DC Motor Velocity Controller by Morfin, Onofre A., Castañeda, Carlos E., Valderrabano González, Antonio, Hernandez González, Miguel, Valenzuela, Fredy A.

“…This scheme is based on the state-feedback linearization technique combined with a second-order sliding mode algorithm, named super-twisting, for stabilizing the system and achieving control goals. …”
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