JP2007207065A - Safety confirmation system - Google Patents

Safety confirmation system Download PDF

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Publication number
JP2007207065A
JP2007207065A JP2006026704A JP2006026704A JP2007207065A JP 2007207065 A JP2007207065 A JP 2007207065A JP 2006026704 A JP2006026704 A JP 2006026704A JP 2006026704 A JP2006026704 A JP 2006026704A JP 2007207065 A JP2007207065 A JP 2007207065A
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JP
Japan
Prior art keywords
tag
worker
wireless communication
safety confirmation
communication device
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Pending
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JP2006026704A
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Japanese (ja)
Inventor
Hitoshi Matsushita
Kunihiko Nishibe
Hiroshi Samejima
Koichi Tsuyama
仁士 松下
幸一 津山
邦彦 西部
弘 鮫島
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Hitachi Plant Technologies Ltd
株式会社日立プラントテクノロジー
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Application filed by Hitachi Plant Technologies Ltd, 株式会社日立プラントテクノロジー filed Critical Hitachi Plant Technologies Ltd
Priority to JP2006026704A priority Critical patent/JP2007207065A/en
Publication of JP2007207065A publication Critical patent/JP2007207065A/en
Application status is Pending legal-status Critical

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Abstract

<P>PROBLEM TO BE SOLVED: To provide a safety confirmation system for quickly and accurately performing safety confirmation by preliminarily inputting the ID information of each operator, and transferring personal information by radio communication between a tag carried by each operator, and radio communication equipment and a controller which are installed at a manager side, and displaying and recording the communication content. <P>SOLUTION: This safety confirmation system is configured of a portable tag 1 with the ID information of an operator M preliminarily inputted therein; radio communication equipment 2 for performing radio communication to the tag 1 and a controller 3 for performing display, recording and communication with the radio communication equipment 2. The tag 1 is provided with: instruction means 13 and 14 for instructing affirmation and negation; radio equipment; and a display part 12, and the radio communication equipment 2 is provided with: radio equipment; a data base 23 for ID authentication; and a communication means with the controller 3, and the controller 3 is provided with: a communication means with the radio communication equipment 2; a data recording means; and a data display means. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a safety confirmation system, and in particular, for an operator carrying an ID tag with personal information input, the attendance status of each worker, confirmation of qualification requirements, possession status of tools, etc. using radio wave recognition. The present invention relates to a safety confirmation system that quickly and reliably confirms grasps.

  Conventionally, managers or supervisors at production factories, construction sites, etc., perform worker attendance surveys through call-up, investigation of the presence of qualifications, including possession of qualifications, and possession inspections of tools, etc. before starting work. These can be done by filling in the survey forms handed to each worker, or by asking verbal questions for each item, asking each worker for answers, and by the supervisor collecting and recording the results. It was carried out.

However, in the safety confirmation method for obtaining answers to oral questions, etc. on this survey form, particularly when there are many workers, we ask for responses over all items, and record their records, It takes a lot of time to perform the aggregation.
Therefore, if these recording and counting times are shortened, supervisors will become impatient, and as a result, recording errors, counting errors, etc. will occur, and there are problems that cannot be confirmed accurately in all respects. It was.

  In order to solve the problems of the above-described conventional safety confirmation system, the present invention inputs the ID information of each worker in advance and carries the tag carried by each worker, and the radio provided on the manager side To provide a safety confirmation system that performs quick and reliable safety confirmation by wirelessly communicating personal information between a communication device and a control device, and displaying and recording the contents of the communication. With the goal.

  In order to achieve the above object, the safety confirmation system of the present invention includes a portable tag preliminarily input with worker ID information, a wireless communication device that performs wireless communication with the tag, and communication and display between the wireless communication device, In a safety confirmation system comprising a control device that performs recording, a tag is provided with an instruction means for instructing positive or negative, a wireless device, and a display, and the wireless communication device communicates with the wireless device, an ID authentication database, and the control device. The control device is provided with communication means with the wireless communication device, data recording means, and data display means, respectively.

  In this case, name, age, qualification information, etc. can be stored in advance in tags held by each worker as worker ID information.

  Further, the name, age, qualification information, etc. can be stored in the wireless communication apparatus as ID information of each worker.

  According to the safety confirmation system of the present invention, a portable tag in which worker ID information is input in advance, a wireless communication device that performs wireless communication with the tag, and a control device that performs communication, display, and recording with the wireless communication device. In the safety confirmation system comprising the tag, the tag is provided with an instructing means for instructing positive or negative, a wireless device, and a display, and the wireless communication device is provided with a wireless device, a database for ID authentication, and a communication means with the control device for control. Since the device is provided with communication means, data recording means, and data display means for the wireless communication device, the administrator or supervisor uses the control device connected to the wireless communication device to carry out each work carried by the tag. A lot of work is possible because it is possible to quickly and easily record and automatically record the attendance status, including the presence of qualifications, and the possession of tools, etc. Even if there is a problem, safety confirmation work before work can be performed quickly, very easily and accurately, and it is possible to prevent errors such as recording errors and counting errors, and to confirm safety accurately in all respects. it can.

  Further, by storing the name, age, qualification information, etc. in advance in the tag held by each worker as the ID information of the worker, the tag containing information such as the name in advance is handed to the worker of the day. Thus, the safety confirmation operation can be performed smoothly.

  Also, by storing the name, age, qualification information, etc. as the worker's ID information in the wireless communication device, it is possible to collate with the personal information from the tag carried by each worker, so This saves you the trouble of entering information such as age and qualification information.

  Embodiments of the safety confirmation system of the present invention will be described below with reference to the drawings.

1 to 5 show an embodiment of the safety confirmation system of the present invention.
The safety confirmation system according to the present invention wirelessly confirms safety and discusses work procedures between one or more workers M and at least one manager, for example, a field supervisor B, before starting work. This system includes a tag 1 carried by each worker M, a control device 3 configured so that an administrator B can carry it or be close to it and give each worker necessary instructions, and the control. The wireless communication device 2 is configured to wirelessly communicate necessary information between the device 3 and each tag 1.

  The tag 1 is not particularly limited as authentication information other than the personal ID number. For example, the name, department, age, qualification, etc. are input in advance. The size that it is easy for people to carry, such as forming it like a name tag or batch and attaching it to the chest, hanging it from the neck, attaching it to a helmet so that the worker M can carry or carry it so as not to hinder the work. Shape. Thereby, each worker M carries the tag 1 into which personal information is input in advance.

  In addition, as shown in FIG. 2 (A), the tag 1 has an instruction means for instructing affirmation or denial so that it can be operated from the outside, and this is not particularly limited. The switch 13 or the two switches 13 and 14 of the “No” switch 14 and the antenna 11 for performing communication between the wireless communication devices 2 are not particularly limited. As shown in FIG. 2B, a press signal from any one of the “Yes” switch 13 or the “No” switch 14 is provided as an internal circuit. , A signal synthesis circuit 15 for synthesizing the ID (personal information) number stored in the tag 1 and an RFID (Radio Frequency Identification) for radio transmission of this signal synthesis from the antenna 11 A transmitter 16, also the RFID receiver 17 which is adapted to receive signals by the antenna 11, receiving the received signal, more configuration as indicator lighting circuit 18 for lighting the display device 12.

  As shown in FIG. 4, the wireless communication device 2 projects an antenna 21 for transmitting or receiving a wireless signal to or from the tag 1 outside the device (not shown) of the wireless communication device 2. In the apparatus, the RFID receiver 22 that transmits the radio signal received from the tag 1 by the antenna 21 and the registration ID of the built-in authentication database 24 and the received signal are collated. Then, an ID authentication circuit 23 for performing ID (personal information) authentication, and data based on the authentication result are transferred to the control device 3 via the data transfer circuit 26 and further controlled so as to be transmitted from the antenna 21. A control circuit 25, a display lighting signal circuit 27 that lights the display 12 on the tag 1 side by a signal from the control circuit 25, and an RFID that enables transmission from the antenna 21 More configuration and signal 28.

Although the control apparatus 3 is not specifically limited, For example, it can be made easy to use on the site by using a touch panel personal computer.
The touch panel of the control device 3 is not particularly limited. For example, as shown in FIG. 3, as main operation keys, an “update” key 31, a “return” key 32, and a “forward” key are arranged in the upper row. 33, a “correction” key 34, a “end” key 35 in the lower right corner, and a work table 36 for confirming safety in the central portion. Enter “Confirmation” 37 for confirming presence / absence of “Attendance” and “Safety belt”, “Qualification”, “Tool”, etc. of each worker in the horizontal direction, and “Name” of each worker in the vertical direction. A “name column” 38 and a “total column” 39 for entering “total” are arranged, and a “scroll bar” 50 and “scroll keys” 51 and 52 for scrolling the table horizontally are provided at the bottom of the table. Scroll the work table 36 vertically at the right end of the table. It is configured by arranging a "scroll key," 41 and 42 "scroll bar" 40 for.
The display contents of the work table 36 are not particularly limited. For example, in the top column in the horizontal direction, “name”, “attendance”, “safety belt”, “qualification 1”, “tool 1” are displayed. In the leftmost column in the vertical direction, for example, the names of the workers “name 1” to “name 6” are registered in advance, and if the number of names does not fit on one page, the scroll bar Scroll up and down by dragging to the top or bottom of 40 or by clicking the scroll keys 41 and 42. Also, if the horizontal qualification or tool column still does not fit on one page, it can be scrolled to the left or right by dragging the scroll bar 50 to the left or right, or clicking the scroll keys 51 and 52. . Thereby, even when there are a large number of work confirmations and workers, the safety confirmation can be easily performed, and the number can be arbitrarily increased.

The worker M carrying the tag 1 answers the question by the field supervisor B as the manager using the “Yes” switch 13 or the “No” switch 14 provided on the tag 1. When the response result signal is transmitted from the antenna 11 by radio, the antenna 21 of the radio communication apparatus 2 receives the signal, and transmits a radio signal indicating that the signal has been correctly received from the antenna 21. The signal is received by the antenna 11 and the indicator 12 is turned on, so that the worker M can confirm that the result of the reply has arrived at the on-site supervisor B of the manager.
In addition, since the control device 3 is connected to the wireless communication device 2, it is possible to store and calculate necessary information, display data of the wireless communication device, and exchange signals with the wireless communication device.

Next, the operation of the safety confirmation system of the present invention will be described.
The field supervisor B as the manager gathers all the workers, and first presses the “attendance” key to confirm attendance. When the attending worker M presses the “Yes” switch 13 on the tag 1 he / she carries, the signal is communicated to the wireless communication device 2 via wireless communication. The wireless communication device 2 transmits a received signal to the tag for which the “Yes” switch 13 is pressed for confirmation of the received result, and the indicator 12 is lit, so that the operator M switches the “Yes” switch. It is possible to know that the result of pressing 13 has been communicated to the field supervisor B.
At the same time, the result of pressing the “Yes” switch 13 is displayed in the corresponding worker column as “◯” (for example, attendance column for name 1). When the “update” key 31 is pressed after a certain period of time has elapsed, for example, if “name 6” is absent, the “yes” switch 13 will not be pressed forever, so “name 6”. The entire column is displayed in different colors, and the total number of attendees is displayed in the “total” column 39. In this way, the color-coded display and the display of the total number of people make the result clear and easy to understand.

Next, the on-site supervisor B presses the “forward” key 33 or “safety belt” in the “confirmation column” 37 to prepare the safety belt and check whether there is an abnormality. Each worker M prepares a safety belt and checks whether there is an abnormality. If there is no problem, the operator presses the “Yes” switch 13, and the signal is communicated to the wireless communication device 2 via the wireless communication. Is displayed in the “Safety zone” column. When the field supervisor B presses the “Update” key 31 after a certain period of time, ○ (or ×) is entered in all columns except absent persons in the “safety zone” column, and the total number of ○ is the “total” column. 39.
If neither the “Yes” switch 13 nor the “No” switch 14 is pressed after a certain period of time has elapsed, “X” is automatically displayed.

Next, the presence / absence of “qualification 1” and confirmation of the carrying of the certificate are performed. Each worker M checks whether or not “qualification 1” exists and carries the credential. If there is no problem, the switch 13 of “Yes” is displayed. If there is no “qualification 1” or the credential is not carried, “ When the “No” switch 14 is pressed, these signals are communicated to the wireless communication device 2 via radio, and the result is displayed in the column of the corresponding worker by ○ and ×. On the other hand, when the on-site supervisor B presses the “update” key 31 after a certain period of time, ○ and × are entered in all columns except absent persons in the “qualification 1” column, and the total number of ○ is the “total” column. 39.
If neither the “Yes” switch 13 nor the “No” switch 14 is pressed after a certain period of time has elapsed, “X” is automatically displayed in the corresponding person column. As a result, the on-site supervisor B can clearly recognize the names having “qualification 1” and the total number thereof, for example, the number of “qualification 1” necessary for the work contents of the day can be easily confirmed. There is.
If it is clear whether the name is qualified or not, color it in advance in the “Qualification 1” column when registering the name, and carry the certificate by comparing with ○ on the day. It has an effect that it is possible to immediately and easily know the trouble such as not being.
Further, “qualification 2” and the like are performed in the same manner, and the operation and effect are the same.

Next, the presence / absence of abnormality of “tool 1” and confirmation of carrying are performed. Each worker M confirms whether or not the “tool 1” is abnormal and carries it, and if there is no abnormality, presses the “Yes” switch 13. When the “tool 1” is not carried, when the “no” switch 14 is pressed, those signals are communicated to the wireless communication device 2 via wireless, and the result is displayed in the corresponding column of each worker with O, × Is displayed.
On the other hand, when the on-site supervisor B presses the “update” key 31 after a certain period of time, all columns except absent persons in the “tool 1” column are filled with ○, ×, and the total number of ○ is the “total” column. 39. That is, when neither the “Yes” switch 13 nor the “No” switch 14 is pressed after a certain period of time, the X display is automatically performed. As a result, the on-site supervisor B can clearly recognize the names having “Tool 1” and the total number thereof, for example, the number of “Tool 1” necessary for the work contents of the day can be easily confirmed. There is.
In addition, when “Tool 1” is used in common, such as a stepladder, it is recommended that the person in charge of the “Tool 1” make a request in advance to press “Yes” as a representative.
The “tool 2” and the like are similarly performed for the operation, and the operation and effect are the same.

The “update” key 31 has a function of displaying “O” for “Yes” pressed until that time, “X” for “No” or not pressed, and displaying the total number of ○. . The “return” key 32 has a function of returning to the key operation immediately before that.
Further, the “forward” key 33 has a function of proceeding to the right one column. If the “advance” key 32 is pressed without pressing the “update” key 31, the function of “advance” is automatically executed after the “update” function is performed. It is efficient because it saves the work of the field supervisor.
The “correction” key 34 is a key necessary for correction. After the “correction” key 34 is pressed, the fields requiring correction, such as “attendance”, “safety belt”, and the like are pressed. Alternatively, after the “correction” key 34 is pressed, when the name of the operator who needs correction is pressed, the color of the entire data of the name is changed, and correction is possible. Or, if the correction location is clear, by pressing the column of the operator, ○ can be corrected to ×, and if it is ×, it can be corrected to O. This makes it possible to easily correct data.

In the communication between the worker M carrying the tag 1 and the field supervisor B as the manager having the wireless communication device 2, for example, the operator M switches “Yes” to the question of the field supervisor B. 13 (or “No” switch 14) is pressed, the ID (personal information) number originally stored in the tag is combined with the pressed signal, and the signal is wirelessly transmitted from the antenna 11 by the RFID transmitter. send.
The signal is received by the antenna 21 of the wireless communication apparatus 2 and transmitted to the RFID receiver 22 as shown in FIG. Next, the ID (personal information) authentication registered beforehand is performed by collating with the built-in authentication database 24. As a result, the name, the presence or absence of qualification, etc., for the ID number registered in advance are confirmed, and the control circuit 25 transfers the data combining the ID number and the pressing signal to the control device 3 via the data transfer 2. At the same time, in order to notify the holder of the tag 1 that the pressing signal has been received, the indicator lighting signal 27 is generated together with the ID number, and is transmitted from the antenna 21 to the tag 1 having the ID number by the RFID transmitter 28. To do. The signal is received by the antenna 11 of the tag 1 and transmitted to the RFID receiver 17, and the display lighting circuit 18 turns on the display 12 for a predetermined time, for example, for 1 second. As a result, the tag 1 holder can confirm that the signal that has pressed the “Yes” switch 13 (or “No” switch 14) is transmitted to the control device 3 of the field supervisor B.

Next, a series of these operations will be described with reference to the flowchart shown in FIG.
In the control device 3, the power is turned on and start-up is started. First, the field supervisor B performs attendance confirmation a, and the attending worker depresses the “Yes” switch 13 of each tag 1. Site supervisor B confirms the responses of all attendees. Next, “safety zone” confirmation c is performed. Each worker confirms the answers of all attendees by pressing the “Yes” switch 13 or the “No” switch 14 of each tag 1, and then confirms “Qualification 1” in the same manner. Each worker confirms the answers of all attendees by pressing the “Yes” switch 13 or the “No” switch 14 of each tag 1, and then confirms “qualification 2”. Each worker confirms the answers of all attendees by pressing the “Yes” switch 13 or the “No” switch 14 of each tag 1, and then performs confirmation “i” for “Tool 1”.
The operator confirms the answers of all the attendees by pressing the “Yes” switch 13 or the “No” switch 14 of each tag 1, and then confirms “Tool 2”. Similarly, the operator confirms the answers of all the attendees by pressing the “Yes” switch 13 or the “No” switch 14 of each tag 1 and stops a series of confirmation operations.

Therefore, according to the safety confirmation system of the present invention configured as described above, necessary information is exchanged using the tag 1 possessed by each worker, the wireless communication device 2 and the control device 3 managed by the site supervisor or the like. As a result, it is possible to obtain information for a plurality of workers M at the morning meeting in a short time and with high reliability. In other words, starting with confirmation of attendance, each task includes confirmation of the presence of safety belts, confirmation of the presence of qualifications, confirmation of the number of qualified personnel, confirmation of the presence of road tools, confirmation of the number of necessary road tools, etc. Information can be easily acquired and totaling can be easily performed only by a key operation (pressing) that the person makes an affirmative (yes) or negative (no) to the question of the field supervisor.
Since each tag 1 has a display function, it is possible to check immediately even if the key operation signal by each worker M does not reach the on-site supervisory radio communication device, thus preventing operational mistakes. can do.

  In this way, the supervisor B uses the control device 3 connected to the wireless communication device 2 to identify each worker M carrying the tag 1 with the qualification including grasping the attendance status and possessing the certificate. It is possible to easily record presence / absence, possession of tools, etc. and automatically record them. As a result, the safety confirmation work before work is very simple and has the effect of preventing mistakes.

  Further, since the name, age, qualification information, etc. are stored in advance in the tag 1 held by each worker as the ID information of the worker M, a tag containing information such as the name for the worker M on the day in advance. By handing over 1, the safety confirmation operation can be carried out smoothly.

  In addition, since the wireless communication device 2 stores the name, age, qualification information, etc. as the worker ID information, the age, qualification information can be obtained by checking the personal information from the tag 1 carried by each worker. This has the effect of saving the trouble of inputting such information.

  As described above, the safety confirmation system of the present invention has been described based on the embodiments. However, the present invention has the configuration described in the above embodiments, that is, attendance confirmation, safety belt presence / absence confirmation, qualification presence / absence, tool presence / absence confirmation. The present invention is not limited to this, and the configuration can be changed as appropriate without departing from the spirit of the invention.

  The safety confirmation system of the present invention is simple and automatic by confirming attendance confirmation for workers, confirmation of presence or absence of safety belt, confirmation of presence or absence of qualification, confirmation of presence or absence of tools, etc. In addition to being used for safety confirmation systems especially when there are a large number of workers, it can also be used for confirmation of work in production plants, for example. .

It is explanatory drawing which shows one Example of the safety confirmation system of this invention. The tag used with the safety confirmation system of this invention is shown, (A) is an external view, (B) is a block block diagram. It is detailed explanatory drawing which shows the touchscreen type control apparatus used with the safety confirmation system of this invention. It is detailed explanatory drawing of the radio | wireless communication apparatus used with the safety confirmation system of this invention. It is a functional flow explanatory view of the safety confirmation system of the present invention.

Explanation of symbols

M Worker B Manager (site supervisor)
1 Tag 11 Antenna 12 Display 13 “Yes” Switch 14 “No” Switch 15 Signal Synthesis 16 RFID Transmitter 17 RFID Receiver 18 Display Lighting Circuit 2 Wireless Communication Device 21 Antenna 22 RFID Receiver 23 ID Authentication 24 Authentication Database 25 Control circuit 26 Data transfer 27 Indicator lighting signal 28 RFID transmitter 3 Controller 31 “Update” key 32 “Return” key 33 “Proceed” key 34 “Correction” key 35 “End” key 36 Work confirmation table 37 Item entry field 38 Name entry line 39 Total field 40 Scroll bar 41 Scroll key 42 Scroll key 50 Scroll bar 51 Scroll key 52 Scroll key

Claims (3)

  1.   In a safety confirmation system consisting of a portable tag preliminarily inputted with worker ID information, a wireless communication device that performs wireless communication with the tag, and a control device that performs communication, display, and recording with the wireless communication device, An instructing means for instructing positive or negative, a wireless device, and a display are provided, a wireless communication device is provided with a wireless device, a database for ID authentication, a communication device with the control device, and a communication device with the wireless communication device is provided in the control device A safety confirmation system comprising a data recording means and a data display means.
  2.   The safety confirmation system according to claim 1, wherein names, ages, qualification information, etc. are stored in advance in tags held by each worker as ID information of the worker.
  3.   The safety confirmation system according to claim 1, wherein a name, age, qualification information, etc. are stored as ID information of each worker in the wireless communication device.
JP2006026704A 2006-02-03 2006-02-03 Safety confirmation system Pending JP2007207065A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014225232A (en) * 2013-03-15 2014-12-04 フィッシャー−ローズマウント システムズ,インコーポレイテッド Generating checklists in process control environment
US10168691B2 (en) 2014-10-06 2019-01-01 Fisher-Rosemount Systems, Inc. Data pipeline for process control system analytics
US10223327B2 (en) 2013-03-14 2019-03-05 Fisher-Rosemount Systems, Inc. Collecting and delivering data to a big data machine in a process control system
US10282676B2 (en) 2014-10-06 2019-05-07 Fisher-Rosemount Systems, Inc. Automatic signal processing-based learning in a process plant
US10296668B2 (en) 2013-03-15 2019-05-21 Fisher-Rosemount Systems, Inc. Data modeling studio
US10386827B2 (en) 2013-03-04 2019-08-20 Fisher-Rosemount Systems, Inc. Distributed industrial performance monitoring and analytics platform

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10386827B2 (en) 2013-03-04 2019-08-20 Fisher-Rosemount Systems, Inc. Distributed industrial performance monitoring and analytics platform
US10311015B2 (en) 2013-03-14 2019-06-04 Fisher-Rosemount Systems, Inc. Distributed big data in a process control system
US10223327B2 (en) 2013-03-14 2019-03-05 Fisher-Rosemount Systems, Inc. Collecting and delivering data to a big data machine in a process control system
US10296668B2 (en) 2013-03-15 2019-05-21 Fisher-Rosemount Systems, Inc. Data modeling studio
JP2014225232A (en) * 2013-03-15 2014-12-04 フィッシャー−ローズマウント システムズ,インコーポレイテッド Generating checklists in process control environment
US10152031B2 (en) 2013-03-15 2018-12-11 Fisher-Rosemount Systems, Inc. Generating checklists in a process control environment
US10168691B2 (en) 2014-10-06 2019-01-01 Fisher-Rosemount Systems, Inc. Data pipeline for process control system analytics
US10282676B2 (en) 2014-10-06 2019-05-07 Fisher-Rosemount Systems, Inc. Automatic signal processing-based learning in a process plant

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