ライフサイエンスコーパス: automation

1 ical laboratory sections have addressed with automation.

2 ings has become one of the key challenges in automation.

3 ore mass spectrometry by parallelization and automation.

4 to provide solutions, especially in terms of automation.

5 cutive 19 day atmospheric air campaign under automation.

6 creening process via computer assistance and automation.

7 of false positive annotations emerging from automation.

8 impact on communication and opportunity for automation.

9 gram sample quantity and is amenable to full automation.

10 user error, which can be partly overcome by automation.

11 sequences in a modular manner using robotic automation.

12 mistry and colloidal science to robotics and automation.

13 ocess can be implemented manually or through automation.

14 hput selections that lends itself to process automation.

15 anomanufacturing with the potential for full automation.

16 f machine vision and learning techniques for automation.

17 functions on a single substrate, and enables automation.

18 a shorter time span and is more suitable for automation.

19 i) in situ detection capability and complete automation.

20 orm in parallel, and has limited options for automation.

21 ons, as well as the stage of integration and automation.

22 tion, high-throughput format adaptation, and automation.

23 re discussed in light of miniaturization and automation.

24 bor-intensive procedure creates a barrier to automation.

25 eat potential for bulk fabrication with full automation.

26 ta is a key open challenge that has resisted automation.

27 broad range of analytes and a high degree of automation.

28 nts, which can be applied at a high level of automation.

29 gh selectivity, low sample volume, and assay automation.

30 experiment without the need for robotics or automation.

31 ication of image data require algorithms for automation.

32 op-and-dry), low sample volumes (<1 nL), and automation.

33 echnique to the field of clinical laboratory automation.

34 significant innovation of the method is the automation.

35 simplified the procedure and facilitated its automation.

36 d reproducibility, and the potential of easy automation.

37 very promising, opening the possibility for automation.

38 ing a broadly applicable method suitable for automation.

39 ease uniformity in cell-based assays through automation.

40 ses speed, avoids contamination, and enables automation.

41 igher throughput and consistency afforded by automation.

42 mounts of reagents required and the need for automation.

43 seful for biological, chemical and materials automation.

44 y significant for future miniaturization and automation.

45 , limiting their throughput and capacity for automation.

46 firming their amenability to high-throughput automation.

47 e required human intervention and facilitate automation.

48 setting, and future process optimization and automation.

49 analysis, process control, audit trails and automation.

50 fer a high potential for miniaturization and automation.

51 boratory instrumentation to facilitate assay automation.

52 instructions into discrete steps amenable to automation.

53 ITEX desorption sequentially to enable full automation.

54 ion is driven by the principal AI strengths: automation, accuracy, and objectivity.

55 Such automation advances, when provided by multiuser faciliti

56 d throughput in data processing achieved via automation afforded the possibility of conducting otherw

57 n total, 104,730 specimens were enrolled and automation agreed with manual analysis for 90.1% of all

58 hat readily supports state of the art design automation algorithms.

59 The resulting automation allowed for high-throughput histo-cytometry a

60 Microfluidic automation allowed us to control parameters related to f

61 Installing simple plate handling automation allowed us to reach a throughput of 100 000 s

62 ty, and ability to carry out high-throughput automation analysis (i.e., sensing arrays) has led to th

63 combination of microfluidic membrane valves, automation and a streamlined protocol now enables a sing

64 ia: sleepwalkers exhibited improved movement automation and a stronger dissociation between locomotor

65 ing of stem cell models, while improving the automation and accuracy of drug testing.

66 blood culture system incorporating improved automation and an enhanced detection algorithm to shorte

67 ased on continuous flow systems coupled with automation and bioassays.

68 nt and fast genome-wide association analysis automation and can go from raw genetic data to genome: p

69 ng two specific classifiers as a toolset for automation and cell identification in the model organism

70 rticocerebellar loop disruption resulting in automation and cognitive optimisation lack in MS.

71 gly important to articulate what the role of automation and computation has been in the scientific pr

72 The interface enables automation and creation of new functions and increases t

73 Advances in automation and data analytics can aid exploration of the

74 As automation and device fabrication of semiconductor quant

75 ollection, this method should be amenable to automation and further scale up for preparation of large

76 To shed some light on the design automation and guidelines of AQFP circuits, in this pape

77 on of MCs/Nod with the additional benefit of automation and high-throughput possibilities for large s

78 Microfluidic devices offer automation and high-throughput screening, and operate at

79 variability while affording suitability for automation and high-throughput uses.

80 Advances in automation and imaging have made it possible to capture

81 le separation, have been developed and allow automation and integration of complex assay protocols in

82 Our program uses robotic automation and interactive web-based tools to bridge geo

83 The high degree of automation and interactivity in QuickMIRSeq leads to a s

84 llustrate how rapid advancements in hardware automation and machine learning continue to transform th

85 llustrate how rapid advancements in hardware automation and machine learning continue to transform th

86 Due to its potential for automation and mass production, we believe that the ODX

87 With advances in automation and miniaturization in material fabrication,

88 The flow system was designed to focus on automation and miniaturization with minimal sample and r

89 ple bi-RMF provides a promising strategy for automation and multiplexing of magnetic particle-based a

90 t nature, which can be partially overcome by automation and new continuous monitoring technologies, a

91 and image processing procedures, which limit automation and possibilities for high-throughput analyse

92 a that can be applied to clinical use, where automation and reproducibility are critical.

93 hey must be refrigerated and typically limit automation and require more user steps.

94 ducibility, making the procedure amenable to automation and suitable to routine analysis.

95 al processes, the advent of total laboratory automation and the adoption of on-demand NAATs will allo

96 , considering the complete analysis process, automation and the field of application.

97 d, minimum sample handling, compatibility to automation, and applicability to large-scale metabolomic

98 citing opportunities for device integration, automation, and assay standardization.

99 of conventional SDS CGE (labor-saving, easy automation, and convenient quantitation) and also the hi

100 vice allows for ambient temperature storage, automation, and ease of shipping/transfer of samples.

101 igh specificity, wide linear range, complete automation, and generic applications in tests with multi

102 een developed that enable higher-throughput, automation, and greater mass sensitivity.

103 principles of speed and accuracy, unattended automation, and open-source components to build an autom

104 performance of these LDTs, the system's full automation, and the ability to split eluates for both IV

105 stantial limitations in terms of throughput, automation, and widespread availability.

106 d dynamic robots, which thrive in industrial automation, and will probably continue to do so for deca

107 y separate proteins with high resolution and automation are highly desirable.

108 er of procedural steps, miniaturization, and automation are just a few of the multitude of criteria c

109 onsumption, high throughput, sensitivity and automation are the future of sensing and have significan

110 tigated the neural reflections of behavioral automation as participants mastered a dual n-back task.

111 sampling, point-of-care tests, and extended automation as well as new technologies, including mass s

112 oupled with its ease of use and capacity for automation, as well as its accommodation of more-reactiv

113 By automation-assisted screening of numerous sediment sampl

114 ged sample processing times, and the lack of automation, associated with most of the technologies dev

115 ing processors are poised to replace robotic automation by miniaturizing biochemical reactions to the

116 We describe Cytoscape Automation (CA), which marries Cytoscape to highly produ

117 While AI and automation can augment the productivity of some workers,

118 er the last 3 decades, to date, all lack the automation capabilities needed for future missions of ex

119 We propose a procedure with automation capability to group and annotate peaks associ

120 Higher-order data generation implies some automation challenges, which are mainly related to the h

121 ligonucleotides into genes and genomes makes automation challenging, and site-specific incorporation

122 he method offers significant versatility and automation compared with common but laborious titration

123 The automation component of DMF have pushed the barriers of

124 ocessor in the late 1960s to early 1970s, to automation, computers and smartphones-by downscaling the

125 Testing automation could even minimise variation caused by subje

126 Automation could represent a solution.

127 e, the upcoming wave in molecular biological automation demands a rethinking of how we perform DNA as

128 56% (15/961 samples), was observed after DS2 automation (difference, 4.0%; 95% confidence interval [C

129 Furthermore, with automation difficulties and extended sample preparation

130 Automation does not have an impact on the repeatability

131 r of the BOF approach can be used to improve automation efficiency in the cryo-EM data processing pip

132 ed workflow includes three steps: (1) Design automation-efficient synthesis of an optimized multiscal

133 ncements in life-science instrumentation and automation enable entirely new modes of human interactio

134 Here, we describe an automation-enabled large-scale experiment wherein Escher

135 Automation enables reductions in total analysis time, hu

136 omograms due to advances in data acquisition automation, existing computational approaches have very

137 Using the perspective of automation experts in other industries, three examples o

138 le light outputs, spectrometry, and advanced automation features.

139 lly produced lines or lines produced through automation followed by single-colony subcloning.

140 pression workflows and should be amenable to automation for accelerating enzyme screening in industri

141 However, CIU still lacks in automation for buffer exchange and data acquisition, pre

142 ve been developed to create total laboratory automation for clinical microbiology.

143 Genetic circuit design automation for eukaryotes simplifies the construction of

144 and because it is compatible with laboratory automation for high-throughput analysis.

145 ing unique advantages and the possibility of automation for high-throughput experiments by exploiting

146 employed to provide sample-to-answer fashion automation for plasma extraction (from finger-prick of b

147 me of the challenges to developing effective automation for psychiatry to optimise physician treatmen

148 The consequence of behavioral automation for task-related functional network architect

149 pling reactions as a test case, we developed automation-friendly reactions to run in dimethyl sulfoxi

150 increased understanding of the experience of automation from other sectors might allow for more effec

151 by or resulting from computer assistance and automation from the domains of synthetic chemistry, drug

152 reas experts are expected to use unconscious automation (habitual DM) in which decisions are recognit

153 reas experts are expected to use unconscious automation (habitual DM) in which decisions are recognit

154 This two-part review examines how automation has contributed to different aspects of disco

155 This two-part Review examines how automation has contributed to different aspects of disco

156 genetic disease classifications and workflow automation highlight the updates for the DO since 2015.

157 vides linearity in response, data processing automation, improved limits of detection, and ease of us

158 pens a brand new alternative for inexpensive automation in aquatic ecotoxicology.

159 still require manual intervention, complete automation in future would pave the way to designing and

160 SFT promises to advance the goal of full automation in image analysis.

161 Up to now, use of automation in immunofluorescent staining was mostly limi

162 reasingly being performed using microfluidic automation in multiwell format.

163 is easily adaptable and amenable for future automation in order to mimic standardized organ dynamics

164 ion of food doneness remains a challenge for automation in the cooking industry.

165 perts in other industries, three examples of automation in the delivery of routine care are reviewed:

166 sed analysis method, the system enables full automation in tracking single droplets with high accurac

167 ample preparation approach that enables full automation including all the process phases just in a co

168 uickly engineer alternatives to conventional automation infrastructure that are low-cost and user-fri

169 High-content screening microscopy relies on automation infrastructure that is typically proprietary,

170 sent development of a customized mechatronic automation interface that includes a high-resolution USB

171 Automation is an ideal approach for high-throughput samp

172 Combining this with robotic automation is difficult, however, as micropipette penetr

173 The HPLC-based platform for automation is easy to setup and adapt to different syste

174 Rising automation is happening in a period of growing economic

175 uctured experimentation for which laboratory automation is necessary.

176 imilar to more general software development, automation is the key to executing and managing these ta

177 Without the aid of automation, it is extremely difficult to avoid the devel

178 -clamp recording has recently benefited from automation, it is normally performed "blind," meaning th

179 ion throughput was greatly improved using an automation liquid-handling system, meeting the needs for

180 mode has advantages such as its reusability, automation, low sample volume (6 muL), and fast response

181 The demonstrated automation, low sample-to-answer time and portability of

182 This high degree of automation makes the developed EME-autosampler a powerfu

183 larization or the experimental stability for automation-making this approach beneficial for improving

184 ce, show extensive potential applications in automation, manufacturing, process control, and portable

185 San Antonio explains why he thinks that this automation may not become widely used.

186 This study demonstrates that GM-EIA automation may reduce intersite variability.

187 ing dispersal constraints using the cellular automation model MigClim.

188 spectively, which included 2 manual-positive/automation-negative (MP/AN) results and 170 manual-negat

189 r secondary review, 91.1% of manual-positive/automation-negative specimens were due to expert rules t

190 e specimens were found to be manual-positive/automation-negative; a secondary review demonstrated tha

191 Our findings suggest that the automation of a cognitively demanding task may result in

192 ROBOT supports automation of a wide range of ontology development tasks

193 nce and machine learning will likely lead to automation of aesthetic evaluation, smile design, and tr

194 on this technology we introduce a method for automation of blood plasma separation and multi-step bio

195 of the application of deep learning for the automation of cell line authentication into a readily av

196 tificial cell types (ACT) and complicate the automation of cell surface phenotyping.

197 and is a simple and compact solution for the automation of colony-counting assays and microbe behavio

198 inciples, customizing laboratory devices for automation of common laboratory practices, control of re

199 ved the data release frequency by increasing automation of curation and providing scaling improvement

200 is no longer an obstacle due to advances in automation of data collection, obtaining the same number

201 tic, metagenomic and genome assembly provide automation of data conversion, analysis and graphical vi

202 Our future tasks include automation of data flows and further integration with ot

203 This facilitates automation of data retrieval tasks as well as downstream

204 Automation of dispersive solid-phase extraction (d-SPE)

205 The automation of E-values may give an excuse not to think s

206 Objective automation of efficient and reliable synapse detection w

207 Automation of EIAs can reduce variation.

208 ty of appearances and enable new avenues for automation of fluorescence microscopy acquisition pipeli

209 lution, experimental versatility and mostly, automation of force recordings.

210 This work addresses these bottlenecks to the automation of hepatocyte spheroid culture by tethering 3

211 Automation of immunostaining improves reproducibility an

212 th a pump and a monitor for algorithm-driven automation of insulin delivery.

213 the microarray analysis platform MCR 3, the automation of isothermal multiplex-amplification (39 deg

214 nd applicability to be fully exploited, full automation of its operations seamlessly integrated with

215 Automation of laboratory tests, bioinformatic analysis o

216 hese unit operations can be combined for the automation of laboratory workflows.

217 Because of aforementioned hurdles, the automation of lesion boundary detection in dermoscopic i

218 s, we have demonstrated that high-throughput automation of Mass Frontier allows researchers to genera

219 ecome a valuable tool for simplification and automation of molecular biology protocols.

220 pipet tips have great potential in achieving automation of N-linked glycopeptide isolation for high-t

221 ogy for simple, scalable, and transformative automation of oligosaccharide synthesis that easily inte

222 Automation of PRO collection may complement routine clin

223 the improvement of "omic" technologies, and automation of protein crystallization makes this strateg

224 important steps towards the integration and automation of RCA and potentially also other complex mul

225 t, simplicity, small size, as well as facile automation of sample delivery and processing without the

226 With improvements in the automation of sample preparation for LC-MS analysis, a c

227 advantages, such as low reagent consumption, automation of sample preparation, reduction in processin

228 Laser automation of some steps in DALK for keratoconus may red

229 The automation of specimen processing and culture workup has

230 These systems allow for the automation of specimen processing, specimen incubation,

231 irected toward improving the performance and automation of spike sorting.

232 shows that machine learning can improve the automation of structure modeling and significantly accel

233 It also enables automation of tasks performed using PathVisio, making it

234 in 2 broad and highly interconnected areas: automation of tasks that might otherwise be performed by

235 g patients), and increasing productivity via automation of tasks.

236 in a tester set-up that facilitated complete automation of the assay.

237 However, the lack of automation of the associated complex experimental proced

238 Automation of the clinical microbiology laboratory has b

239 The compactness, high degree of automation of the equipment used, energy efficiency, hig

240 emphysema; P < .05).ConclusionDeep learning automation of the Fleischner grade of emphysema at chest

241 core-shell microspheres as sorbent to enable automation of the integrative extraction and analytical

242 The automation of the n-back task through training resulted

243 Automation of the process, consisting of copper-mediated

244 Upon automation of the system and optimization of the method,

245 -by-step approach, which can prevent an easy automation of the workflow, and hence hamper the analysi

246 a microfluidic Lab-on-a-Chip technology for automation of the zebrafish embryo toxicity test common

247 However, automation of these new methods for translation to the c

248 Unquestionably, the automation of these technologies allows for faster sampl

249 The automation of this technique allows it to be applied eas

250 Automation of tunneling current-distance (I(s)) spectros

251 automates "blind" patching in vivo, but full automation of visually guided, targeted in vivo patching

252 nsors and simple nonmicrofluidic measurement automation offers a convenient, labor- and cost-efficien

253 entists from measuring the effects of AI and automation on the future of work.

254 rifugal microfluidics thus offers attractive automation options in diagnostic settings.

255 A miniaturized automation platform enabling high-throughput experimenta

256 his tension between human agency and machine automation poses vital challenges for design and enginee

257 tive (MP/AN) results and 170 manual-negative/automation-positive (MN/AP) results.

258 ntaining desired structures using programmed automation processes.

259 Automation results were discordant for 10,348 specimens,

260 for analyzing CyTOF data attempt to improve automation, scalability, performance and interpretation

261 Design automation simplifies the incorporation of genetic circu

262 e in software used for visualizing GEMs: (i) automation, since GEMs can be quite large; (ii) producti

263 The operation of MACS is described, and automation software is provided to integrate MACS contro

264 Design automation software maps a desired circuit function to a

265 eport implementation of Cello circuit design automation software(6) for this species.

266 ts was made possible in large part by design automation software.

267 nstruction, manual inspection and rule-based automation suffer from low-throughput and insufficient a

268 Through the use of the assay automation system and the PC embedded within the microfl

269 A prototype of the automation system has been developed to handle 12 sample

270 ic cartridge for holding the PC and an assay automation system that provides a leak-free fluid interf

271 have put considerable effort into developing automation systems to prepare natural biopolymers such a

272 Automation takes control away from the surgeon but promi

273 ly invasive surgery, active prosthetics, and automation tasks involving delicate irregular objects.

274 advances in artificial intelligence (AI) and automation technologies have the potential to significan

275 High throughput screening (HTS) is a vital automation technology in biomedical research in both ind

276 low time consumption, and compatibility with automation, the new proposed method could be a suitable

277 design and fabrication techniques, potential automation thereby making it portable and eliminating th

278 ALDI-TOF MS) and BD Kiestra total laboratory automation (TLA) 4 and 3 years ago, respectively.

279 lection; adoption of DNA design software and automation to build constructs and libraries more easily

280 This method leveraged automation to ease the burden of a laborious and complic

281 Full automation to enable high throughput N-glycosylation pro

282 ely used genomics tools, parallelization and automation to increase the accuracy and accessibility of

283 mized design of microfluidic channels allows automation to mimic sequential analytical steps in bench

284 mple inputs, paving the way for microfluidic automation to replace robotic library distribution.

285 High throughput is achieved by SPME automation using a CTC Analytics platform and custom bag

286 associations, industry, and governments that automation using digital technology could improve the de

287 o standard data analysis procedures and full automation using scripts, QSoas features a very powerful

288 AVs offer a variety of automation, vehicle ownership, and vehicle use options.

289 anslating expert knowledge into cell sorting automation via machine learning algorithms.

290 Method automation was achieved by using a robotic system for sp

291 Using minimal automation, we treat pools of 60 cell types-comprising 1

292 High-throughput, parallel processing, and automation were achieved through integration of the meta

293 pound screens, infection models, and robotic automation, which are promising to revolutionize the stu

294 transparent approach that supports potential automation with flexibility to incorporate new data sour

295 let control in the muChopper was improved by automation with pneumatic valves, allowing fluorescence

296 storage device to explore the challenges of automation within the constraints of this unique applica

297 We found that full automation without human intervention allowed rapid, cos

298 n large LC/MS data sets requires significant automation without loss of accuracy in the compound scre

299 To streamline automation workflow and minimize operator intervention,

300 e reached an advanced stage, and a number of automation workflows are already published.