ライフサイエンスコーパス: intelligent

1 kills should over time evolve to become more intelligent.

2 elp for depression would make them feel less intelligent (34.1% vs 22.9%; 95% CI for difference, 2.3%

3 w that the combination of model building and intelligent acquisition results in time and storage savi

4 how Joule's law can be violated "only by the intelligent action of a mere guiding agent", later coine

5 s collaborative memory, decision making, and intelligent action.

6 ntal regions implicated in the maturation of intelligent activity.

7 sight into a possible computational basis of intelligent adaptability and offer a possible framework

8 putational models composed of collections of intelligent adaptive artificial agents.

9 ENT Working memory is a crucial component of intelligent, adaptive behavior.

10 Voluntary control of attention promotes intelligent, adaptive behaviors by enabling the selectiv

11 daptive, and computational agents is also an intelligent, adaptive, and computational agent.

12 s the process whereby any entity composed of intelligent, adaptive, and computational agents is also

13 Competing successfully against an intelligent adversary requires the ability to mentalize

14 t quantum annealing (RQA) scheme in which an intelligent agent searches in the space of Hamiltonians

15 knowledge-based system can be defined as an intelligent agent that employs a computationally tractab

16 artificial intelligence (AI): If you have an intelligent agent that uses visual imagery-based knowled

17 Intelligent agents balance speed of responding with accu

18 -making in the presence of other competitive intelligent agents is fundamental for social and economi

19 ge to test a simple model in which minimally intelligent agents place orders to trade at random.

20 nt progress in computer science, embodied by intelligent agents such as Siri, inspires an approach fo

21 ut what may be needed to create artificially intelligent agents that continuously interact with real,

22 ndard models in economics stress the role of intelligent agents who maximize utility.

23 em-solving team from a diverse population of intelligent agents, a team of randomly selected agents o

24 esolution and touch visibility an artificial intelligent (AI) was used in addition to the state of th

25 Temporal reasoning tasks mainly involve intelligent analysis of time-oriented clinical data, and

26 Widespread use of AI-based intelligent and autonomous systems in radiology can incr

27 nts for designing new nanomaterials that are intelligent and can perform desired mechanical actions i

28 th continuous innovation, future autonomous, intelligent and multifunctional fuel-free micro-/nanomac

29 Humans are nature's most intelligent and prolific users of external props and aid

30 of evolution to counter resistance with more intelligent and rational design.

31 f geometrical effects in, and the design of, intelligent and responsive biopolymer-based materials in

32 eutic gene knockdown, and the development of intelligent and safe nanoparticles as carrier systems is

33 ces may lead to a paradigm shift toward new, intelligent, and efficient computing systems, and are be

34 In addition, how friendly, trustworthy, intelligent, and self-confident a person was perceived t

35 they are perceived as friendly, trustworthy, intelligent, and self-confident.

36 Intelligent animals have a high degree of curiosity--the

37 have been researched for years, few reported intelligent anticaries materials could respond to the ch

38 biases of these tools is essential to their intelligent application.

39 r needs more data, better analyses, and more intelligent approaches.

40 More importantly, the intelligent artificial throat will significantly assist

41 The intelligent assignment of credit to action execution ver

42 ailable in recent years that can function as intelligent assistants to clinicians, constantly monitor

43 ssure values were inferior to values from an intelligent automated archiving method as early indicato

44 ing to usher in the next generation of truly intelligent autonomous systems.

45 gain insights into the basic biochemistry of intelligent behavior by studying the molecular mechanism

46 Intelligent behavior demands not only multiple forms of

47 Intelligent behavior is shaped by the abilities to store

48 Intelligent behavior requires acquiring and following ru

49 Intelligent behavior requires integrating several source

50 Intelligent behavior requires transient memory, which en

51 multiple objects in memory is fundamental to intelligent behavior, but its neural basis remains poorl

52 Learning, the foundation of adaptive and intelligent behavior, is based on plastic changes in neu

53 n based on abstract principles is central to intelligent behavior.

54 itive flexibility is fundamental to adaptive intelligent behavior.

55 Cognitive flexibility is critical for intelligent behavior.

56 on are the best tools we have for explaining intelligent behavior.

57 h active, adaptive, autonomous, emergent and intelligent behavior.

58 Intelligent behaviour requires self-control based on the

59 The versatility and seemingly 'intelligent' behaviour of bacteria will continue to fasc

60 circuits provided individual cells with the 'intelligent' behaviour required for survival.

61 e Foundation (NSF), International Society of Intelligent Biological Medicine (ISIBM), International J

62 The International Society of Intelligent Biological Medicine and its official journal

63 co-sponsored by the International Society of Intelligent Biological Medicine and the Research Laborat

64 M) is a nonprofit organization that promotes intelligent biology and medical science.

65 The International Association for Intelligent Biology and Medicine (IAIBM) is a nonprofit

66 9-11, 2019, the International Conference on Intelligent Biology and Medicine (ICIBM 2019) was held i

67 hosts an annual International Conference on Intelligent Biology and Medicine (ICIBM), which was init

68 The 2016 International Conference on Intelligent Biology and Medicine was held on December 8-

69 Hence, as a simple but intelligent biomaterial consisting of mainly edible star

70 lligence features, the new generation of SPR-intelligent biosensors is qualifying to perform automate

71 rocessors, bringing the promise of embedded, intelligent, brain-inspired computing one step closer.

72 ps, endowing these representations with the "intelligent" capacity to learn from experience.

73 (1 nm) for the design of thermal sensors and intelligent catalysts.

74 ALTOMS comprises an intelligent central control module for high-speed fly be

75 investment in charging infrastructure, while intelligent charging coordination can greatly reduce req

76 a key role in diverse natural processes, the intelligent chemical communication between synthetic nan

77 More intelligent children demonstrate a particularly plastic

78 ging (Olympus), i-Scan (Pentax), and Fujinon Intelligent Chromo Endoscopy, have become standard of ca

79 age-enhanced endoscopy [i-scan], and Fujinon intelligent chromoendoscopy [FICE]), confocal laser endo

80 oscopy methods (narrow band imaging, Fujinon Intelligent ChromoEndoscopy, i-scan, and autofluorescenc

81 nd support vector machine (SVM) to create an intelligent classification system towards supporting cli

82 atments, while forging guidelines for future intelligent clinical trial design.

83 for the next generation of smart textile and intelligent clothing.

84 view places a heavy explanatory burden on an intelligent cognitive unconscious, with many theories as

85 s this conclusion applies to the idea of an "intelligent cognitive unconscious," we would agree.

86 w groups of distributed individuals can form intelligent collective judgments.

87 ual chromoendoscopy systems, such as Fujinon intelligent color enhancement and narrow band imaging, a

88 layered MOFs can be extensively tuned via an intelligent combination of functionalized linkers.

89 he positions of users, which is suitable for intelligent communication systems with low power consump

90 future research into evolving more complex, intelligent computational brains in the fields of artifi

91 ets and propose that the development of new, intelligent, computational tools may point to a way forw

92 cs, medical informatics, systems biology and intelligent computing.

93 Smart/intelligent contrast agent candidates for MRI based on M

94 d new functions enabled by coupling, such as intelligent control during a cascade.

95 The development of intelligent data analysis from a machine learning perspe

96 ynamic and electronic-structure methods with intelligent data mining and database construction, and e

97 HypoTheseS) suite of web-based tools allows intelligent data mining and extraction of information fr

98 suite of tools and interfaces in TFGD allow intelligent data mining of recently released and continu

99 Machine learning (ML) is an intelligent data mining technique that builds a predicti

100 The use of intelligent data-acquisition methods (iterative exclusio

101 Second, with an "intelligent" data-dependent algorithm, termed molecular-

102 ow' reaction conditions are needed to enable intelligent decision making to select an optimal synthet

103 ation for data acquisition, data processing, intelligent decision making, and actuation.

104 This research proposes an intelligent decision support system for acute lymphoblas

105 t, borderline, or benign, we must develop an intelligent decision system that can fullfill such an un

106 We have developed an intelligent decision system using machine learning techn

107 lacement of a unique organic biopolymer with intelligent deformation features.

108 s to the release of drug molecules represent intelligent delivery systems.

109 Intelligent design (ID)-the latest incarnation of religi

110 vored teaching evolution than creationism or intelligent design in science classes.

111 of the sensor platform but also to create an intelligent design including features such as redundant

112 Dover court case that intelligent design is a form of religion and cannot be t

113 ing via pore space partition would depend on intelligent design of both framework components and pore

114 effectively, highlighting the need for more intelligent design of disaster response that is not over

115 Hence, the model is vital to the intelligent design of fast and highly efficient optoelec

116 Such insight would not only enable the intelligent design of future generations of recombinant

117 This information can be exploited within the intelligent design of NMs in the future (e.g. to control

118 This review illustrates that intelligent design of treatment agents and strategies ca

119 Nor is intelligent design required for explaining biological co

120 tion education have been forced to confront "intelligent design" (ID), which rejects a natural origin

121 estral humans and could only be explained by intelligent design.

122 of natural processes, without recourse to an Intelligent Designer.

123 the environment with a class of rapid online intelligent detectors.

124 d great promise in designing multifunctional intelligent devices for a wide range of applications.

125 ble hologram may be a key in enabling future intelligent devices with reconfigurable and programmable

126 sible stimuli-response behavior required for intelligent devices.

127 lular) sensing, small object recognition and intelligent diagnostics.

128 romise new free-energy-governed selection of intelligent digital life.

129 ich could transform ordinary objects into an intelligent distributed sensor network(6).

130 by pediatric healthcare providers to promote intelligent dose reduction based on the principles of AL

131 trigger might be used for molecular sensing, intelligent drug delivery or programmable chemical synth

132 erstand structure-function relationships and intelligent drug design for transporters.

133 methotrexate is one of the first examples of intelligent drug design, multiple mechanisms potentially

134 Epithelia form intelligent, dynamic barriers between the external envir

135 -sensitive pathway may open the door to more intelligent, effective diet design based on the effects

136 ement (REM) dreaming results in "emotionally intelligent encoding," according to the target article.

137 EG signals, non-linear dynamics (chaos), and intelligent engineered systems.

138 controlled pursuit task in which prey follow intelligent escape algorithms.

139 nstruct parts of this model, we show that an intelligent experiment selection strategy is competitive

140 l-and-error learning algorithm that conducts intelligent experiments to rapidly discover a behaviour

141 Future development will focus on intelligent feedback mechanisms in silico to control org

142 ntelligence and gender, indicating that more intelligent females show an increase in brain activation

143 by LBD can be vast, we demonstrate that (a) intelligent filtering can greatly reduce the number of h

144 ptation to the context and popularization of intelligent food synergies.

145 bed that achieves preparative separations by intelligent fraction collection of attomole quantities o

146 Here, we develop CEFCIG, an artificial intelligent framework to uncover CIGs and further define

147 g about the Mouse Atlas in the context of an intelligent gene expression bioinformatics workflow syst

148 ce the understanding of how the brain makes 'intelligent guesses' on the basis of limited information

149 to what extent can the fold be determined by intelligent guesswork?

150 pixels are demonstrated, paving the way for intelligent hardware technology with up-scaled memristiv

151 Intelligent health risk prediction models built with dee

152 rld, people desire romantic partners who are intelligent, healthy, kind, physically attractive, wealt

153 a technology that utilizes machines to mimic intelligent human behavior.

154 r, information that can be used as input for intelligent human-computer interfaces and related applic

155 nitoring of personal health and environment, intelligent human-machine interfaces, and realistic imit

156 An intuitive intelligent image analysis program to assess host protei

157 ia Key Laboratory of Pattern Recognition and Intelligent Image Processing, School of Information Engi

158 Intelligent image-activated cell sorting (iIACS) is a ma

159 elligence technology that performs real-time intelligent image-based sorting of single cells with hig

160 eness of tolerogenic therapies, and to allow intelligent immunosuppressant withdrawal in patients who

161 comparison of in vitro tumour growth with an intelligent in silico model to measure bioreductive drug

162 aterial has the potential to be applied as a intelligent indicator to verify food quality through a v

163 ion between the 2 factors revealed that more intelligent individuals benefited more from practice.

164 Results suggest that less intelligent individuals show a stronger deactivation of

165 to a wide variety of task configurations in intelligent individuals.

166 applications in magnetoelectric devices and intelligent instruments.

167 Intelligent, integrated approaches, mindful of potential

168 We probe the potential for intelligent intervention to enhance the power output of

169 We consider intelligent interventions via pre-programmed reversible

170 ion mass spectrometry (REIMS), also known as intelligent knife (iKnife), to discriminate between heal

171 We have developed an intelligent knowledge-based algorithm, to support biolog

172 perties might establish new design rules for intelligent labels.

173 Intelligent landscape navigation, informed by sequence-a

174 Here we show an intelligent laser-induced graphene artificial throat, wh

175 But what of forms of intelligent life that are very different from those foun

176 However, even seemingly intelligent machines fail in strange and "unhumanlike" w

177 Here, we show that intelligent machines for unsupervised recognition and vi

178 Recent times have seen an emergence of intelligent machines that act autonomously on our behalf

179 Intelligent machines using machine learning algorithms a

180 In the attempt to build adaptive and intelligent machines, roboticists have looked at neurosc

181 ion is the next step in advancing artificial intelligent machines.

182 laborative environments with humans or other intelligent machines.

183 d platform toward the creation of physically intelligent machines.

184 l brains could play a vital role in building intelligent machines.

185 ABSTARCT: With the advent of intelligent manufacturing, phase measuring deflectometry

186 lications such as smart grids, robotics, and intelligent manufacturing.

187 responsive shape memory polymers, a class of intelligent materials that can be fixed at a temporary s

188 echanical means towards innovative smart and intelligent materials.

189 ds a myriad of potential applications as new intelligent materials.

190 possible future realizations of artificial "intelligent" matter, able to sense light, process inform

191 e combined appropriately into one integrated intelligent medical decision system, the prediction powe

192 Thus, there is a critical need to create "intelligent" microarray repositories that (1) enable upd

193 , consensus integration bound detection, and intelligent missing value imputation steps to the conven

194 cted to be applied in self-powered, wearable intelligent mobile diagnosis of cardiovascular disease i

195 effects of maspin motivated us to develop an intelligent model to investigate its effects on cellular

196 racterization tools can provide insight into intelligent molecular design and mechanisms of chemical

197 ture like DNA represents a key aspect toward intelligent molecular systems.

198 o December, 2008, we used the Multiparameter Intelligent Monitoring in Intensive Care II (MIMIC-II) d

199 comes were extracted from the Multiparameter Intelligent Monitoring in Intensive Care II database usi

200 ervention using data from the Multiparameter Intelligent Monitoring in Intensive Care II.

201 old considerable promise for the creation of intelligent nanomachines that perform collective tasks.

202 rogeneous barriers to delivery, arguing that intelligent nanoparticle design can improve efficacy in

203 ferent synthetic nanomotors paves the way to intelligent nanoscale robotic systems that are capable o

204 preliminary efficacy of Stanford Accelerated Intelligent Neuromodulation Therapy (SAINT), an accelera

205 But if intelligent, non-humanoid aliens exist, where might they

206 the way to minimally invasive, precision and intelligent oncological surgery after the rapid developm

207 tation strength phase, thereby exhibiting an intelligent, or nonlinear, behavior by passively sensing

208 alization and paves the road for new active, intelligent, or phase-transforming mechanical metamateri

209 Intelligent organisms are capable of tracking objects ev

210 Intelligent organisms face a variety of tasks requiring

211 culty often assumed to be reserved to highly intelligent organisms.

212 dged to be more trustworthy (P = 0.0159) and intelligent (P = 0.0329) than pictures depicting men.

213 y, wireless sensors and color indicators for intelligent packaging are discussed.

214 ial-and-error based on raw compute power but intelligent parameter estimation.

215 In addition, intelligent parameter selection produces assemblies of R

216 l neonates require intelligent parents, (ii) intelligent parents must have large brains, and (iii) la

217 ay occur when (i) altricial neonates require intelligent parents, (ii) intelligent parents must have

218 he default mode network, as compared to more intelligent people.

219 rocoaxial phacoemulsification using the OZil Intelligent Phaco torsional mode (Group 1) or combined t

220 of a 45 degree aperture angled tip, the OZil Intelligent Phaco torsional mode provided more effective

221 Intelligent photoresponsive isotropic semiconductor micr

222 acquired chess skill more quickly than less intelligent players, reached a higher peak performance,

223 rips a foreseeable promise in application of intelligent point-of-care and in-field diagnostics.

224 strips hold great promise for application in intelligent point-of-care and in-field diagnostics.

225 This novel sensor motif is based on our intelligent polymerized crystalline colloidal array (IPC

226 ximately 100-microm particles composed of an intelligent polymerized crystalline colloidal array (IPC

227 To develop more intelligent polymers, disulfide bonds are introduced in

228 The quest to implement intelligent processing in electronic neuromorphic system

229 tegrated microfluidic thermal management and intelligent prostheses custom-fit to the anatomy of a sp

230 d with internal goals and is thus central to intelligent, purposeful behavior.

231 TS as a positive association with full-scale intelligent quotient (IQ) (beta=0.07, P=0.03, r(2)=0.005

232 ions were conducted with tests of intellect (intelligent quotient; IQ), verbal memory, and sustained

233 ortant to understand these concepts to be an intelligent reader of the literature.

234 mutational and proteomic landscape, allowing intelligent reasoning on target selection.

235 StudyPopulation: LTP patients in the Intelligent Research in Sight (IRIS) Registry, 2013-2018

236 the American Academy of Ophthalmology (AAO) Intelligent Research in Sight (IRIS) Registry.

237 Intelligent Research in Sight Registry patients who were

238 the American Academy of Ophthalmology IRIS (Intelligent Research in Sight) Registry database, drawn

239 he American Academy of Ophthalmology's IRIS (Intelligent Research in Sight) Registry.

240 and nonmydriatic fundus photography via the Intelligent Retinal Imaging System (IRIS) from June 2013

241 tor in micro/nano electromechanical systems, intelligent robots and autonomous driving.

242 ivated by the promise of creating autonomous intelligent robots and biomimetic prosthetics, among oth

243 ents suggest the possibility of realizing an intelligent sampling method.

244 To this end, we show how intelligent sampling of the design space inputs can make

245 These findings suggest an intelligent scalable synthetic method for formation of h

246 This includes its utility for the intelligent scale-up of organic syntheses, as demonstrat

247 rmore, as infrastructure systems become more intelligent, security experts point to the growing threa

248 re, high-resolution separations coupled with intelligent selection and multiplexing) for sensitive se

249 ographic separations for analyte enrichment, intelligent selection of target fractions via on-line SR

250 h-pressure, high-resolution separations with intelligent selection, and multiplexing (PRISM).

251 ular interactions for use as placeholders in intelligent self- and directed-assembly.

252 lications in nanoelectronics, nanophotonics, intelligent sensing and drug delivery.

253 ion and analysis based on widely distributed intelligent sensing technology is particularly important

254 al objects, which have wider applications in intelligent sensing, radar and quantum optics.

255 ronic circuitry, targeted drug delivery, and intelligent sensing.

256 In an intelligent sensory device, this kind of representation

257 The uBioRSS application is a 'taxonomically intelligent' service customized for the biological scien

258 Furthermore, an intelligent shoe and an identity recognition carpet are

259 tion of programmable laboratory hardware and intelligent software can be used to develop increasingly

260 The implementation of intelligent software to identify and classify objects an

261 gue that future advances will concentrate on intelligent software to integrate physical experimentati

262 mat and therefore susceptible to analysis by intelligent software.

263 HRMAn thus presents the only intelligent solution operating at human capacity suitabl

264 ote the development of big data analytics in intelligent sports industry.

265 e proposed ML-approach allow the creation of intelligent SPR sensors to give a safe, reliable, and au

266 These findings provide intelligent strategies for the formulation of multifacto

267 ith its host is essential for formulating an intelligent strategy for dealing with its most important

268 Intelligent sub-sampling (via mean-shift) and code paral

269 ighlights their transcriptional diversity by intelligent subsampling, or sketching.

270 lled metasurface imager opens new venues for intelligent surveillance, fast data acquisition and proc

271 We have set out to create an intelligent system that automatically diagnoses and moni

272 eered nano-multilayer materials behaves like intelligent systems - capable of generating, with unprec

273 artly capture far red-to-NIR light via their intelligent systems due to unique micro/nanoarchitecture

274 the 21st Annual International Conference on Intelligent Systems for Molecular Biology (ISMB) and the

275 d and deliver a keynote presentation at 2015 Intelligent Systems for Molecular Biology/European Confe

276 ecial interest group (SIG) before the annual Intelligent Systems in Molecular Biology (ISMB) conferen

277 Special Interest Group (SIG) meeting at the Intelligent Systems in Molecular Biology (ISMB) conferen

278 presented as a tutorial at the conference on Intelligent Systems in Molecular Biology (ISMB-99) in Au

279 The PHTNet is the first intelligent systems model developed on this scale for PH

280 imitations of robotic hardware toward future intelligent systems that replicate the vast capabilities

281 ches in biomedical engineering have employed intelligent systems to apply biaxial or multiaxial stret

282 Future robots and intelligent systems will autonomously navigate in unstru

283 ired components for designing novel sensors, intelligent systems, and adaptive structures.

284 "big data" with high efficiency and speed in intelligent systems.

285 So called "stimuli-responsive" and "intelligent" systems have been designed to deliver drug

286 biosensor based Embedded Gait Analysis using Intelligent Technology (eGaIT).

287 Using intelligent textiles for clothing represents one possibi

288 n inherent (or essential?) characteristic of intelligent thought?

289 The interface now provides intelligent tools for the visualization and exploration

290 The need for intelligent tools to bridge this gap, to rescue the know

291 present a user-friendly tool, called iTop-Q (intelligent Top-down Proteomics Quantitation), that auto

292 Here we introduce an intelligent trial-and-error algorithm that allows robots

293 ntal state when they are interacting with an intelligent tutoring system.

294 of interventional fluoroscopic equipment and intelligent use of dose-reducing technology.

295 outcomes framework has a clear focus on the intelligent use of information and targets.

296 This work provides a more intelligent way to design imaging sensors by integrating

297 an-machine interaction, electronic skin, and intelligent wearable devices.

298 lishing cost-effective, energy-efficient and intelligent wireless pervasive healthcare monitoring pla

299 Use of multimodality intelligent workstations can improve the performance of

300 New technologies are essential for intelligent wound management and to provide tools that f