Transcript
1 PlanT PlanT 7 PlanT
.
[3,4]
1 2
( )PlanT PlanT 1 PlanT
1 PlanT
2. 2.1
mizukusupli [5] KimuraMOSS-xels
[6] . Sensitivase
[7] .Vito Plantxel [8]
Treeceable
.PlantDisplay
2.2
3. 3.1 PlanT
710 [16, 17] [18] PlanT
3.2 2 PlanT Web LED Web LED LED LED
3
3.3 PlanT
3 LEDAmsunsDC30A-1230, Rasberry Pi 3 Model B+ Rasberry Pi LED
4. 4.1 1
4 100
10 [16, 17] 4.1.1
1 918
URCERI 600lux JIS 500750lux 2427 25 4 150g,
100 10 3.3 30ml YL-69 10 12 1 30ml
3.3 10
1 5 1 10 No.1No.10 10 1
5 10
1 7 6 5 4 3 2 1
6
7 17 1 10 9 1 23.8±0.9 4.1.2 6
6 Friedman χ2 = 13.28, p = .15
2 No. [ml] LED No. [ml] LED 1 6 6 6 2 12 7 12 3 18 8 18 4 24 9 24 5 30 10 30
3 F 353.06 4 88.26 319.67**
LED 13.69 1 13.69 21.21**
×LED 9.06 3 2.27 13.73**
4.2 2 LED 4.2.1
1 5LED 2 10 1 30ml 6ml12ml 18ml24ml30ml 5LED LED 22 9 PlanT LED LED 2 10 12 1LED 22 7 10 1 7 7 2 10 110 9 1 23.8±0.9 4.2.2 LED 2
7 2 10
4 F p
a 0.315 36.827 P < 0.001** 0.525
w 0.473 48.160 P < 0.001** 0.801
2 3 3F 4
36(0.01) = 3.89, p < .01 LEDF 1
9 (0.01) = 10.56, p < .01 LED × LEDF 4
36(0.01) = 3.89, p < .01 LED 30ml
LED F 1
29(0.01) = 0.77, p = 0.39Bonferoni
No.5 30mlLEDNo.10
30mlLED p = .06 p < .01
. 10 10 Y
l,t,a,w,n . 0.903
5 [mm2] [g] [cm] [mm] []
No.5 30LED 6.8 6.9 204 32.4 14.2 2.2 100
No.10 30LED 6.6 6.5 232 27.3 12.9 2.4 100
No.9 24LED 6 6.1 233 23.5 12.5 2.5 99
No.4 24LED 5.5 4.6 145 17.4 12.2 2.1 99
No.8 18LED 4.7 4.7 213 13.0 11.0 2.2 92
No.3 18LED 4.0 3.8 159 9.2 10.9 2.0 92
No.7 12LED 3.6 3.7 180 7.1 9.5 2.4 76
No.6 6LED 2.1 2.2 104 0.5 5.1 1.7 23
No.2 12LED 2.0 1.9 55 1.1 6.0 1.8 60
No.1 6LED 1.0 1.3 0 0.1 2.8 1.6 19
2 4 (1)
Y = 0.0085a+ 0.12w + 1.3 (1)
(R2) 0.903 p 1% 2
10 5 (1) LED 5 0.987
4.3 1
100
100 1
2LED
(1)
5. PlanT PlanT PlanT
PlanT 3.3
5.1 6
5 1) 2PlanT PlanT PlanT 2 6 3 ABA PlanT PlanTB PlanT PlanT 2 5.1.1
3 6 2 2 2 PlanT
6
6
1() 200 2() 50 3() 60 4() 45 5 100 6 40
8 LINE BOT
TOEIC L R TEST 5.1.2 PlanT PlanT PlanT PlanT 2
PlanT LINE BOT 22 LINE 8 LINE LINE BOT LINE
BOT 0100 LINE BOT 12 LED 2 22 7 2 5 10 7 PlanT PlanT 1
1 LED
7 91100 No.530mlLED 8190 No.1030mlLED 7180 No.924mlLED 6170 No.424mlLED 5160 No.818mlLED 4150 No.318mlLED 3140 No.712mlLED 2130 No.66mlLED 1120 No.212mlLED 010 No.16mlLED
PlanT
LINE BOT LINE BOT 5.1.3
PlanT PlanT PlanT a b 71 4 7 PlanT
( c) 714 7
5.2 PlanT 7 3.2 8 ac 9 PlanT 7 9 PlanT 700 7 2
8
1 2 3 4 5 6
a PlanT 6 5 5 7 5 4 5.3 0.9
b 6 6 5 7 6 3 5.6 1.2
c 6 4 4 6 6 3 4.9 1.1
9 7
9 PlanT PlanT
1 650 3.4
2 600 2.3
4 380 1.8
3 680 4.6
5 640 4.1
6 450 3.2
5.3 5.3.1 PlanT 8 a
5.3 0.9 b 5.6, 1.2 PlanT
[18] PlanT PlanT 5.3.2 8 c
4.9 1.1 2 1 30ml 12 1cm 9 9 A B 2.74.0 B A B A B 1 2 50 1.1 9 10 PlanT PlanT 10(b) 2 1 3 10(a) 1 PlanT 7
10 PlanT PlanT
1 2
6. 6.1 PlanT
PlanT PC PlanT
6.2 4 2
PlanT
10 5 5
6.3
LED
6.4
2
. .
7.
PlanT 2 PlanT PlanT 7
PlanT PlanT PlanT
[1] Nakajima, K., Itoh, Y., Tsukitani, T., Fujita, K.,
Takashima, K. and Kitamura, Yoshifumi, a. K. F.: FuSA Touch Display: A Furry and Scalable Multi-touch Dis- play, Proceedings of the ACM International Conference on Interactive Tabletops and Surfaces, ITS ’11, pp. 35– 44 (2011).
[2] Tsujimoto, Y. and Itoh, Yuichi, a. O. T.: Ketsuro- Graffiti: An Interactive Display with Water Condensa- tion, Proceedings of the 2016 ACM International Con- ference on Interactive Surfaces and Spaces, ISS ’16, pp. 49–55 (2016).
[3] Vol. 42, No. 1, pp. 56–61 (2016).
[4] Vol. 43, No. 1, pp. 86–91 (2017).
[5] mizukusupli: (HCI)pp.
45–51 (2016).
[6] Kimura, T. and Kakehi, Y.: MOSS-xels: Slow Chang- ing Pixels Using the Shape of Racomitrium Canescens, ACM SIGGRAPH 2014 Posters, SIGGRAPH ’14, p. 20:1 (2014).
[7] Sensitivase: Information Proceeding Society of Japan, EC2018, pp. 36–38 (2018).
[8] Gentile, V., Sorce, S., Elhart, I. and Milazzo, F.: Plan- txel: Towards a Plant-based Controllable Display, Pro- ceedings of the 7th ACM International Symposium on Pervasive Displays, PerDis ’18, pp. 16:1–16:8 (2018).
[9] Treeceable: 2019 pp. 238–239 (2019).
[10] Kuribayashi, S. and Wakita, A.: PlantDisplay: Turning Houseplants into Ambient Display, Proceedings of the 2006 ACM SIGCHI International Conference on Ad- vances in Computer Entertainment Technology, ACE ’06, p. 40:1 (2006).
[11] Kuribayashi, S., Sakamoto, Y. and Tanaka, H.: I/O Plant: A Tool Kit for Designing Augmented Human- plant Interactions, CHI ’07 Extended Abstracts on Hu- man Factors in Computing Systems, CHI EA ’07, pp. 2537–2542 (2007).
[12] Sareen, H., Zheng, J. and Maes, P.: Cyborg botany: augmented plants as sensors, displays and actuators, Ex- tended Abstracts of the 2019 CHI Conference on Hu- man Factors in Computing Systems, ACM, p. VS13 (2019).
[13] Steiner, H., Johns, P., Roseway, A., Quirk, C., Gupta, S. and Lester, J.: Project Florence: A Plant to Human Experience, Proceedings of the 2017 CHI Conference Extended Abstracts on Human Factors in Computing Systems, CHI EA ’17, pp. 1415–1420 (2017).
[14] : WISS 2006, pp. 23–26 (2006).
[15] Shameplan- pet: 2019 pp. 407–409 (2019).
[16] (Raphanus sativus L.‘Kaiwaredaikon (Japanese radish sprout)’) Vol. 21, No. 2, pp. 79–85 (2009).
[17] (Raphanus sativus L.‘Kaiwaredaikon’) Vol. 21, No. 3, pp. 117–122 (2009).
[18] = Journal of Japanese Society of People-Plant Relationships Vol. 13, No. 2, pp. 23–26 (2014).
[19] LINE https://linecorp.com/ja/(2019 10 18).
[20] MessagingAPI: https://developers.line.biz/ja/
services/messaging-api/(2019 10 18).
.
[3,4]
1 2
( )PlanT PlanT 1 PlanT
1 PlanT
2. 2.1
mizukusupli [5] KimuraMOSS-xels
[6] . Sensitivase
[7] .Vito Plantxel [8]
Treeceable
.PlantDisplay
2.2
3. 3.1 PlanT
710 [16, 17] [18] PlanT
3.2 2 PlanT Web LED Web LED LED LED
3
3.3 PlanT
3 LEDAmsunsDC30A-1230, Rasberry Pi 3 Model B+ Rasberry Pi LED
4. 4.1 1
4 100
10 [16, 17] 4.1.1
1 918
URCERI 600lux JIS 500750lux 2427 25 4 150g,
100 10 3.3 30ml YL-69 10 12 1 30ml
3.3 10
1 5 1 10 No.1No.10 10 1
5 10
1 7 6 5 4 3 2 1
6
7 17 1 10 9 1 23.8±0.9 4.1.2 6
6 Friedman χ2 = 13.28, p = .15
2 No. [ml] LED No. [ml] LED 1 6 6 6 2 12 7 12 3 18 8 18 4 24 9 24 5 30 10 30
3 F 353.06 4 88.26 319.67**
LED 13.69 1 13.69 21.21**
×LED 9.06 3 2.27 13.73**
4.2 2 LED 4.2.1
1 5LED 2 10 1 30ml 6ml12ml 18ml24ml30ml 5LED LED 22 9 PlanT LED LED 2 10 12 1LED 22 7 10 1 7 7 2 10 110 9 1 23.8±0.9 4.2.2 LED 2
7 2 10
4 F p
a 0.315 36.827 P < 0.001** 0.525
w 0.473 48.160 P < 0.001** 0.801
2 3 3F 4
36(0.01) = 3.89, p < .01 LEDF 1
9 (0.01) = 10.56, p < .01 LED × LEDF 4
36(0.01) = 3.89, p < .01 LED 30ml
LED F 1
29(0.01) = 0.77, p = 0.39Bonferoni
No.5 30mlLEDNo.10
30mlLED p = .06 p < .01
. 10 10 Y
l,t,a,w,n . 0.903
5 [mm2] [g] [cm] [mm] []
No.5 30LED 6.8 6.9 204 32.4 14.2 2.2 100
No.10 30LED 6.6 6.5 232 27.3 12.9 2.4 100
No.9 24LED 6 6.1 233 23.5 12.5 2.5 99
No.4 24LED 5.5 4.6 145 17.4 12.2 2.1 99
No.8 18LED 4.7 4.7 213 13.0 11.0 2.2 92
No.3 18LED 4.0 3.8 159 9.2 10.9 2.0 92
No.7 12LED 3.6 3.7 180 7.1 9.5 2.4 76
No.6 6LED 2.1 2.2 104 0.5 5.1 1.7 23
No.2 12LED 2.0 1.9 55 1.1 6.0 1.8 60
No.1 6LED 1.0 1.3 0 0.1 2.8 1.6 19
2 4 (1)
Y = 0.0085a+ 0.12w + 1.3 (1)
(R2) 0.903 p 1% 2
10 5 (1) LED 5 0.987
4.3 1
100
100 1
2LED
(1)
5. PlanT PlanT PlanT
PlanT 3.3
5.1 6
5 1) 2PlanT PlanT PlanT 2 6 3 ABA PlanT PlanTB PlanT PlanT 2 5.1.1
3 6 2 2 2 PlanT
6
6
1() 200 2() 50 3() 60 4() 45 5 100 6 40
8 LINE BOT
TOEIC L R TEST 5.1.2 PlanT PlanT PlanT PlanT 2
PlanT LINE BOT 22 LINE 8 LINE LINE BOT LINE
BOT 0100 LINE BOT 12 LED 2 22 7 2 5 10 7 PlanT PlanT 1
1 LED
7 91100 No.530mlLED 8190 No.1030mlLED 7180 No.924mlLED 6170 No.424mlLED 5160 No.818mlLED 4150 No.318mlLED 3140 No.712mlLED 2130 No.66mlLED 1120 No.212mlLED 010 No.16mlLED
PlanT
LINE BOT LINE BOT 5.1.3
PlanT PlanT PlanT a b 71 4 7 PlanT
( c) 714 7
5.2 PlanT 7 3.2 8 ac 9 PlanT 7 9 PlanT 700 7 2
8
1 2 3 4 5 6
a PlanT 6 5 5 7 5 4 5.3 0.9
b 6 6 5 7 6 3 5.6 1.2
c 6 4 4 6 6 3 4.9 1.1
9 7
9 PlanT PlanT
1 650 3.4
2 600 2.3
4 380 1.8
3 680 4.6
5 640 4.1
6 450 3.2
5.3 5.3.1 PlanT 8 a
5.3 0.9 b 5.6, 1.2 PlanT
[18] PlanT PlanT 5.3.2 8 c
4.9 1.1 2 1 30ml 12 1cm 9 9 A B 2.74.0 B A B A B 1 2 50 1.1 9 10 PlanT PlanT 10(b) 2 1 3 10(a) 1 PlanT 7
10 PlanT PlanT
1 2
6. 6.1 PlanT
PlanT PC PlanT
6.2 4 2
PlanT
10 5 5
6.3
LED
6.4
2
. .
7.
PlanT 2 PlanT PlanT 7
PlanT PlanT PlanT
[1] Nakajima, K., Itoh, Y., Tsukitani, T., Fujita, K.,
Takashima, K. and Kitamura, Yoshifumi, a. K. F.: FuSA Touch Display: A Furry and Scalable Multi-touch Dis- play, Proceedings of the ACM International Conference on Interactive Tabletops and Surfaces, ITS ’11, pp. 35– 44 (2011).
[2] Tsujimoto, Y. and Itoh, Yuichi, a. O. T.: Ketsuro- Graffiti: An Interactive Display with Water Condensa- tion, Proceedings of the 2016 ACM International Con- ference on Interactive Surfaces and Spaces, ISS ’16, pp. 49–55 (2016).
[3] Vol. 42, No. 1, pp. 56–61 (2016).
[4] Vol. 43, No. 1, pp. 86–91 (2017).
[5] mizukusupli: (HCI)pp.
45–51 (2016).
[6] Kimura, T. and Kakehi, Y.: MOSS-xels: Slow Chang- ing Pixels Using the Shape of Racomitrium Canescens, ACM SIGGRAPH 2014 Posters, SIGGRAPH ’14, p. 20:1 (2014).
[7] Sensitivase: Information Proceeding Society of Japan, EC2018, pp. 36–38 (2018).
[8] Gentile, V., Sorce, S., Elhart, I. and Milazzo, F.: Plan- txel: Towards a Plant-based Controllable Display, Pro- ceedings of the 7th ACM International Symposium on Pervasive Displays, PerDis ’18, pp. 16:1–16:8 (2018).
[9] Treeceable: 2019 pp. 238–239 (2019).
[10] Kuribayashi, S. and Wakita, A.: PlantDisplay: Turning Houseplants into Ambient Display, Proceedings of the 2006 ACM SIGCHI International Conference on Ad- vances in Computer Entertainment Technology, ACE ’06, p. 40:1 (2006).
[11] Kuribayashi, S., Sakamoto, Y. and Tanaka, H.: I/O Plant: A Tool Kit for Designing Augmented Human- plant Interactions, CHI ’07 Extended Abstracts on Hu- man Factors in Computing Systems, CHI EA ’07, pp. 2537–2542 (2007).
[12] Sareen, H., Zheng, J. and Maes, P.: Cyborg botany: augmented plants as sensors, displays and actuators, Ex- tended Abstracts of the 2019 CHI Conference on Hu- man Factors in Computing Systems, ACM, p. VS13 (2019).
[13] Steiner, H., Johns, P., Roseway, A., Quirk, C., Gupta, S. and Lester, J.: Project Florence: A Plant to Human Experience, Proceedings of the 2017 CHI Conference Extended Abstracts on Human Factors in Computing Systems, CHI EA ’17, pp. 1415–1420 (2017).
[14] : WISS 2006, pp. 23–26 (2006).
[15] Shameplan- pet: 2019 pp. 407–409 (2019).
[16] (Raphanus sativus L.‘Kaiwaredaikon (Japanese radish sprout)’) Vol. 21, No. 2, pp. 79–85 (2009).
[17] (Raphanus sativus L.‘Kaiwaredaikon’) Vol. 21, No. 3, pp. 117–122 (2009).
[18] = Journal of Japanese Society of People-Plant Relationships Vol. 13, No. 2, pp. 23–26 (2014).
[19] LINE https://linecorp.com/ja/(2019 10 18).
[20] MessagingAPI: https://developers.line.biz/ja/
services/messaging-api/(2019 10 18).
