1. The Smart Utility Monitoring System for Industrial Safety
and Enhancement on the IOT Technology
Amon
Olimov¹,
Umarov
Jamshid¹,
Yusupov
Sabirjan²,
Chol-­‐U
Lee³,
Ryum-­‐Duck
Oh¹
¹
Korea
Na(onal
University
of
Transporta(on,
Chungju,
Korea
²
Tashkent
University
of
Informa(on
Technology,
Tashkent,
Uzbekistan
³
Division
of
C-­‐IRTC,
Korea
Na(onal
University
of
Transporta(on,
Chungju,
Korea
2014.12.12

2. Contents
1. Motivation
2. How to make safer working environments for workers?
3. Integrated Smart Utility Monitoring System Environment
4. Communication environment for workers
5. Monitoring the collected data from devices
6. Conclusion
Korea

4. National

5. University

6. of

7. Transportation,

8. Ubi-DB

10. Lab

12. 1. Motivation
• Increasing number of factories and manufactory, year
by year increasing various accidents and death in
work fields by increasing difficulties of jobs.
• To provide the safety workplace with technologies are
expensive
• Amount of compensation cost decreases the budget of
companies
• Plurality of field workers gets trouble to provide the
fruitful monitoring
Korea

14. National

15. University

16. of

17. Transportation,

18. Ubi-DB

20. Lab

22. 2. How to make safer working environments
for workers?
• Working Place Demands
– Wireless
– Compatibility with another technologies
– Safe environmental
– Not disturbing to work
– Cheap cost and high result
• Our Mission
– Increase the safety of workplace
– Monitor and control: tasks, quality of work, being in time of
workers
Korea

24. National

25. University

26. of

27. Transportation,

28. Ubi-DB

30. Lab

32. 3. Integrated Smart Utility Monitoring
System Environment
!
Korea

34. National

35. University

36. of

37. Transportation,

38. Ubi-DB

40. Lab

42. !
4. Communication environment for workers
WiFi-Mesh
Various sensors through the sensor node is
installed in advance
Data transfer (Zigbee / Wi-Fi communication)
U-Gateway
WCDMA/
Wibro
WiFi-Mesh
Control center
Korea

44. National

45. University

46. of

47. Transportation,

48. Ubi-DB

50. Lab

52. Worker: Smart helmet
Specifications:
• Image processing: YUV420, YCvCr422
• H.264 BitStream video recording
• Bluetooth, UART Interface
• Sensors: CMOS image, 3-axis accelerometer, temperature, humidity, buzzer,
LED
• Battery life time: 7 hours
Smart helmet sends all data via
Bluetooth to Smart Belt in time
interval or by request. Ubiquitous
device does not make any difficulties
to work field workers
Korea

54. National

55. University

56. of

57. Transportation,

58. Ubi-DB

60. Lab

62. Worker: Smart Belt
Specifications:
• Sensors: O2, CO, CH4
• Event control processing algorithm
• Battery life time: 7 hours
Sample of Ubiquitous smart device
consist of sensors, UART interface,
Bluetooth and Wi-Fi communication,
in spite of this smart belt is light
and easy to use. Smart Belt
transfers received data from smart
helmet to servers via Wi-Fi mesh
Korea

64. National

65. University

66. of

67. Transportation,

68. Ubi-DB

70. Lab

72. 5. Monitoring the collected data from
devices(1)
In the dangerous situations specified to:
• Recognize accident location
• Clarify the accident reason
• Notify employees and emergency services
Korea

74. National

75. University

76. of

77. Transportation,

78. Ubi-DB

80. Lab

82. 5. Monitoring the collected data from
devices(2)
To exceed yields of work:
• Abridge gathering the task reports time
• Controlling timetables, tasks, positions of personals
• Create reports for salaries
Korea

84. National

85. University

86. of

87. Transportation,

88. Ubi-DB

90. Lab

92. Monitoring Apps
• Field worker support
• Task management
Management
condi(on
of
equipment
and
background
management
of
remote
equipment
Remote
Monitoring
ChaFng
Real
(me
chaFng
between
manager
and
worker
No(fica(ons
Smart
Work
Map
No(cing
in
dangerous
situa(ons
Providing
working
place
informa(on
Korea

94. National

95. University

96. of

97. Transportation,

98. Ubi-DB

100. Lab

102. Real time monitoring and by this saving time
Simple interface designed hardware and software, easy to use at one time for control center workers furthermore field workers
6. Conclusion
Efficiency↑
Accidents↓
As following of fast growth of IoT technology depending in safety industrial field including worker oriented system in IoT technology,
we designed and realized smart worker service system to support worker’s performance with the IoT technology. Effective device
for all workers field and easy to use.
Acceptable device and monitoring system
Economic effect↑
Preventing various accident by remote controlling the worker
Ergonomics↑
Korea

104. National

105. University

106. of

107. Transportation,

108. Ubi-DB

110. Lab

112. Thank you