ライフサイエンスコーパス: cell phone

1 rgy 4 (LTE4) for wireless communication with cell phone.

2 point-of-care quantification of TSH using a cell phone.

3 tioned above the existing camera unit of the cell phone.

4 dulated electromagnetic waves emitted by the cell phone.

5 condary tasks, including texting and dialing cell phones.

6 advances which took us from vacuum tubes to cell phones.

7 ces and machines, caller identification, and cell phones.

8 lucose metabolism twice, once with the right cell phone activated (sound muted) for 50 minutes ("on"

9 s silicon (a-Si:H) TFSCs on paper, plastics, cell phone and building windows while maintaining the or

10 Data transmission from the sensors to a cell phone and the Internet enable continuous monitoring

11 ween portable screen-based media device (eg, cell phones and tablet devices) access or use in the sle

12 radio frequency identification (RFID) tags, cell phones, and portable computers to link phenotypic,

13 bsorbed electromagnetic energy radiated from cell phone antennae into ex vivo brain tissue.

14 Modern cell phones are a ubiquitous resource with a residual ca

15 Technologies such as the internet and cell phones are an integral part of the daily lives of m

16 Coupled with a new cell phone-based test reader platform (Smart Reader), th

17 g the results from the benchtop apparatus, a cell-phone-based apparatus was designed which utilized t

18 ffect in natural environments during a 4-day cell-phone-based ecological momentary assessment.

19 We tested the performance of our cell-phone-based imaging cytometer by measuring the dens

20 In this cell-phone-based optofluidic imaging cytometry platform,

21 ned which utilized the embedded flash in the cell phone camera as the light source, piped the light w

22 s at ppb concentrations is described using a cell phone camera or a hand-held optoelectronic nose.

23 amplification could also be imaged with the cell phone camera using flash as the excitation source.

24 camera-based photometer (constructed from a cell phone camera, a planar light source, and a cardboar

25 les and the ability to image results using a cell phone camera.

26 ate perpendicular to the detection path, our cell-phone camera can record fluorescent movies of the s

27 imaging conditions obtained with a consumer cell-phone camera, and to automated cloud-based processi

28 sumer electronic devices (e.g., scanners and cell-phone cameras).

29 es over a summer period, and deficiencies in cell phone communications and battery life.

30 (GSS) technology, solar power, and automated cell-phone communications was deployed and validated in

31 ed drive under 3 conditions (no distraction, cell phone conversation, and texting).

32 Cell phone conversation, texting, and no distraction whi

33 Additionally, the microBAR features cell phone data connectivity and GPS sample geotagging w

34 aim of this cross-sectional study was to use cell phone data to assess the impact on work productivit

35 minutes ("on" condition) and once with both cell phones deactivated ("off" condition).

36 Cell phone-delivered smoking cessation treatment has a p

37 This cell-phone-enabled optofluidic imaging flow cytometer co

38 A simple questionnaire administered by cell phones enables the identification of phenotypic dif

39 om 12:30 AM to 5:30 AM with handover of work cell phone; equivalent to 1200 overnight intern shifts a

40 However, whether acute cell phone exposure affects the human brain is unclear.

41 nts and compared with no exposure, 50-minute cell phone exposure was associated with increased brain

42 sensing systems may become as ubiquitous as cell phones for healthcare.

43 Combined with cell phone imaging, the presented micro-a-fluidic ELISA

44 Cell phones, including smart ones, are readily available

45 usual care (UC) or counseling delivered by a cell phone intervention (CPI).

46 In conventional consumer electronics such as cell phones, lead-containing interconnects provide the c

47 such as social media, Internet searches, and cell-phone logs.

48 Use of a dual-frame survey of landline and cell phone numbers assisted the BRFSS efforts in obtaini

49 urvey to a dual-frame survey of landline and cell phone numbers.

50 of control recruitment, including RDD using cell-phone numbers and address-based sampling (ABS), to

51 nterval [CI], 2.83 to 24.42), reaching for a cell phone (odds ratio, 7.05; 95% CI, 2.64 to 18.83), se

52 o 9.25), reaching for an object other than a cell phone (odds ratio, 8.00; 95% CI, 3.67 to 17.50), lo

53 creased significantly if they were dialing a cell phone (odds ratio, 8.32; 95% confidence interval [C

54 to examine whether exclusion of adults with cell phones only affected estimates after adjustment for

55 e landline noncoverage rates for adults with cell phones only continue to increase, these biases are

56 ases resulting from exclusion of adults with cell phones only from the landline-based survey were fou

57 In 2008, a survey of adults with cell phones only was conducted in parallel with an ongoi

58 The mail survey also provided access to cell-phone-only households and households without teleph

59 n US landline-based telephone samples due to cell-phone-only households, the Behavioral Risk Factor S

60 g for sampling is the exclusion of adults in cell-phone-only households.

61 proach to allocate samples into landline and cell-phone-only strata and used a new approach to weight

62 samples were obtained from the surfaces of a cell phone, piece of luggage made from hard plastic, bus

63 em and image analysis algorithm based upon a cell phone platform.

64 to characterize the hot spots from absorbed cell phone radiation in aqueous media and biological tis

65 eviewed focusing on their potential to serve cell phone readout configurations.

66 ith this requirement, the central aspects of cell phones' resources that determine their potential fo

67 proach to weighting state-level landline and cell phone samples.

68 New technologies, including cell phones, sensors, and monitors, now make it possible

69 Today's consumer electronics, such as cell phones, tablets and other portable electronic devic

70 More of the world's population has access to cell phones than to basic sanitation facilities, a gap t

71 We used cell phones to gather survey data on income, expenditure

72 It utilizes RFID tags, computers, PDAs, and cell phones to link, record, and retrieve positional, an

73 spitals using global positioning systems and cell phone tower triangulation and to trigger a smartpho

74 derscores the possibility to entirely retain cell phones' ubiquity for distributed biosensing.

75 -conceived as only accessories to complement cell phones-underscores the possibility to entirely reta

76 stem (BRFSS) in a subpopulation with notable cell-phone usage (i.e., young adults).

77 However, increasing cell-phone usage and diminishing response rates suggest

78 he performance of secondary tasks, including cell-phone use, and the risk of crashes and near-crashes

79 ng cytometry and fluorescent microscopy on a cell phone using a compact, lightweight, and cost-effect

80 Among experienced drivers, dialing a cell phone was associated with a significantly increased

81 s in landline telephone surveys that exclude cell phones were estimated.

82 Cell phones were placed on the left and right ears and p

83 For 98.3% of on-call nights, cell phones were signed out as designed.

84 als of brain activities and transmit them to cell phone with a maximal sampling rate of 30 ksampling/