JP4237572B2 - Reader / writer - Google Patents

Description

  The present invention relates to a reader / writer, and more particularly to an automatic control technology for a reader / writer that collectively reads information recorded on RFID tags attached to a package carried by a human body.

Conventionally, in order to read the record information of the RFID tag attached to the baggage to be transported by manual transport means such as a cart with a tunnel type or gate type reader / writer, when the person pushing the cart passes the reader / writer, the reader / writer The RFID tag is driven by the carrier wave transmitted from, and information recorded on the RFID tag is received. That is, the conventional reader / writer needs to always wait by transmitting a carrier wave because it is impossible to predict when a package with an RFID tag will enter. If radio waves are always output, radio waves leaking outside the reader / writer may become noise and adversely affect surrounding information devices.
Japanese Patent Laid-Open No. 2000-20648 discloses a wireless card processing device that can suppress generation of unnecessary radio waves, reduce power consumption, and prevent adverse effects on surrounding information processing devices. According to this, in a reader / writer that performs data communication with a wireless card wirelessly, transmission of radio waves to the wireless card is permitted or stopped.
Japanese Laid-Open Patent Publication No. 2002-205820 discloses identification information and a destination from an ID tag of a package by a reader / writer via a transmission and reception antenna attached to a gate that moves intermittently after the package is loaded on a truck. A technique for reading and collating the read information with the scheduled shipment information is disclosed.
Also, in Japanese Patent No. 2908921, a wagon loaded with a case containing a wafer is inserted and set by a worker into a case loading / unloading port so that the mechanical switch detects the set of the wagon, and the control means drives the reader. A technique for reading and updating recorded information of an IC card installed in a case is disclosed.
JP 2000-20648 A JP 2002-205820 A Japanese Patent No. 2908921

Conventional reader / writers always transmit radio waves when power is turned on to prepare for data communication with RFID tags. For this reason, there is a problem that the power consumption is increased and the surrounding information processing devices are adversely affected.
The prior art disclosed in Patent Document 1 permits or stops transmission of radio waves from a reader / writer based on the operation of a sensor or switch that detects a human body. However, in this prior art, the reader / writer is stopped when a human body is detected with the switch turned on, but it is not clear how to stop the reader / writer when it is not detected.
The prior art disclosed in Patent Document 2 is an invention related to a gate-type reader / writer, and since the reader / writer is always operating, radio waves leaking outside the reader / writer become noise and information devices in the vicinity. May adversely affect
The prior art disclosed in Patent Document 3 is a technique for automatically turning on a reader by a mechanical switch, and does not mention the relationship with human body detection.
In view of the above problems, an object of the present invention is to provide a reader / writer that suppresses generation of unnecessary radio waves, reduces power consumption, and prevents adverse effects on surrounding information processing devices.

In order to solve this problem, the present invention provides a reader / writer configured to collectively read information recorded on RFID tags attached to a package to be transported, and transports the package. A human body detection sensor for detecting that a human body has approached a predetermined distance from the reader / writer, a manual switch for controlling the operation of the reader / writer by a manual operation, and a weight of a passing baggage being not less than a predetermined amount. A weight detection sensor for detecting, and when the human body transports a package with an RFID tag and passes the reader / writer, the weight detection sensor detects that the weight of the package that passes is greater than or equal to a predetermined value. When the human body detection sensor does not detect a human body, the reader / writer is operated to read the record information of the RFID tag.
Radio waves regulated by the Radio Law are radiated from the reader / writer. When not in use, it is preferable to stop radio waves from the reader / writer so as to avoid unnecessary power consumption and to minimize the influence on surrounding electronic devices. Therefore, in the present invention, a human body detection sensor, a manual switch, and a weight detection sensor are provided. The weight detection sensor detects that a load having a predetermined weight is placed, and when the human body detection sensor does not detect a human body, The recorded information of the RFID tag attached to the package is read by a reader / writer. Note that when the load is more than a predetermined weight, the reader / writer is automatically activated, and the operation by the manual switch is ignored.
According to this invention, when the weight detection sensor detects a predetermined weight and the human body detection sensor does not detect a human body, the reader / writer is operated for the first time, so that unnecessary power consumption is avoided and the surrounding electronic devices are avoided. Can be minimized.
In the second aspect of the present invention, when the human body carries a package with an RFID tag and passes through the reader / writer, the weight detection sensor does not detect a package having a weight lower than a predetermined weight when the manual switch is pressed. When the human body detection sensor does not detect a human body, the reader / writer is operated for a predetermined time.
The weight detection sensor does not detect the weight unless it exceeds a predetermined weight. Therefore, when the weight of the load is less than the predetermined weight, it is necessary to set the load on the reader / writer and operate the reader / writer by a manual switch. At that time, on the condition that the human body detection sensor does not detect the human body, the reader / writer automatically stops when a predetermined time elapses. This prevents forgetting to stop the reader / writer.
According to this invention, the reader / writer is activated for a predetermined time when the manual switch is turned on on condition that the weight detection sensor does not detect a load less than a predetermined weight and the human body detection sensor does not detect the human body. Therefore, the reader / writer can be prevented from operating unnecessarily to reduce power consumption, and the operator can be prevented from forgetting to stop the reader / writer.

Claim 3 is a reader / writer configured to collectively read record information of RFID tags attached to a package to be transported, and a human body that transports the package has a predetermined distance from the reader / writer. A human body detection sensor that detects that the weight of the passing baggage is greater than or equal to a predetermined weight, and the human body carries the baggage with the RFID tag attached to the reader / writer. When passing, when the weight detection sensor detects that the weight of the package passing is greater than a predetermined value and the human body detection sensor does not detect a human body, the reader / writer is activated to record the RFID tag. It is characterized by reading information.
In the present invention, the manual switch is deleted from the invention of claim 1. That is, the sensitivity of the weight detection sensor is increased to widen the width of the load weight detection. Thereby, operation is automated and the convenience of the operator can be improved.
According to this invention, since the manual switch is deleted and the operation of the reader / writer is controlled by the weight detection sensor, the operation is automated to improve the convenience of the operator and avoid unnecessary power consumption. The influence on electronic equipment can be minimized.
A reader / writer configured to collectively read information recorded on RFID tags attached to a package to be transported, wherein a human body that transports the package has a predetermined distance from the reader / writer. A human body sensor that detects that the human body is approaching, and a manual switch that controls the operation of the reader / writer by manual operation, and when the human body carries a package with an RFID tag and passes through the reader / writer, When the manual switch is pressed and the human body detection sensor does not detect a human body, the reader / writer is operated for a predetermined time.
In the present invention, the weight detection sensor is deleted from the invention of claim 1. In other words, when the amount of luggage to be handled is small, even if it is manually operated, workability is not greatly affected. Therefore, the information recorded in the RFID tag is read by setting the package on the reader / writer and pressing the manual switch. Thereby, the cost of the apparatus can be reduced.
According to this invention, since the weight detection sensor is deleted and the operation of the reader / writer is controlled by a manual switch, the cost of the apparatus can be reduced, unnecessary power consumption can be avoided, and the surrounding electronic equipment can be reduced. The impact can be minimized.
According to a fifth aspect of the present invention, the human body detection sensor detects infrared rays, and turns on the human body detection sensor when the color temperature of the infrared rays is equal to or higher than a predetermined temperature.
In distinguishing between the human body and luggage, the size alone cannot be judged. That is, it is necessary to detect body temperature, which is a characteristic characteristic of the human body. Therefore, in the present invention, a sensor that detects infrared rays whose color temperature changes with temperature is used.
According to this invention, since the color temperature is detected by the infrared sensor, it is possible to accurately determine the human body and the luggage.

According to a sixth aspect of the present invention, the predetermined weight detected by the weight detection sensor is a weight within a preset range.
For example, if handling of a load of a certain weight or less is not handled, it is not necessary to increase the sensitivity of the weight sensor more than necessary and widen the detection range. By doing so, the cost of the sensor can be reduced. Therefore, in the present invention, the cost of the apparatus is reduced as much as possible by preventing the sensor from reacting to a load having a predetermined weight or less.
According to this invention, since the sensitivity of the weight detection sensor is limited to a predetermined range, the cost of the sensor can be reduced, and as a result, the cost of the apparatus can be reduced.
According to a seventh aspect of the present invention, the predetermined time for operating the reader / writer is a time required for the reader / writer to read the information recorded in the RFID tag, or a time longer than that.
When the reader / writer of the present invention is operated by a manual switch, the reader / writer is configured to operate for a predetermined time and automatically stop. This time is set in advance so that the information on the RFID tag can be read correctly even under the worst condition of the reader / writer. Thus, the operator can complete the operation only by pressing the manual switch once, and the reader / writer can be reliably read.
According to this invention, by operating the manual switch, the reader / writer operates for a predetermined time and automatically stops, so that the operation is simplified for the operator, and the reader / writer reliably receives information on the RFID tag. Can be read.
Claim 8 is provided with a result notifying means for notifying whether or not the reader / writer has read the record information of the RFID tag correctly, and the result notifying means notifies whether the reading result is good or not by a light emitting means or sound or voice. It is characterized by doing.
When an operator carries a package with an RFID tag and passes through the reader / writer, the operator cannot determine from the outside whether the reader / writer has read the information recorded in the RFID tag correctly. Therefore, in the present invention, a lamp or sounding body for notifying the reader / writer of the reading result is provided to notify the operator of the result.
According to this invention, since the light emitting means or the sound and voice means for notifying the reader / writer of the reading result is provided, the operator can immediately determine whether or not the information of the RFID tag has been correctly read. If fails, you can try again.

According to the first aspect of the present invention, when the weight detection sensor detects a predetermined weight and the human body detection sensor does not detect the human body, the reader / writer is activated for the first time, so that unnecessary power consumption is avoided and The influence on electronic equipment can be minimized.
Further, in claim 2, the reader / writer is operated for a predetermined time when the manual switch is turned on on condition that the weight detection sensor does not detect a load less than a predetermined weight and the human body detection sensor does not detect the human body. Therefore, the reader / writer can be prevented from operating unnecessarily to reduce power consumption, and the operator can be prevented from forgetting to stop the reader / writer.
According to the third aspect of the present invention, since the manual switch is deleted and the operation of the reader / writer is controlled by the weight detection sensor, the operation is automated to improve the convenience of the operator and avoid unnecessary power consumption. The influence on electronic equipment can be minimized.
Further, since the weight detection sensor is deleted and the operation of the reader / writer is controlled by a manual switch, the cost of the apparatus can be reduced, wasteful power consumption can be avoided, and the surrounding electronic devices can be connected. The impact can be minimized.
Further, since the color temperature is detected by the infrared sensor, the human body and the baggage can be accurately discriminated.
According to the sixth aspect of the present invention, since the sensitivity of the weight detection sensor is limited within a predetermined range, the cost of the sensor can be reduced, and as a result, the cost of the apparatus can be reduced.
Further, in claim 7, by operating the manual switch, the reader / writer is operated for a predetermined time and automatically stopped, so that the operation is simplified for the operator, and the reader / writer reliably receives the information on the RFID tag. Can be read.
Further, according to the present invention, since the light emitting means or the sound and voice means for notifying the reader / writer of the reading result is provided, the operator can immediately determine whether or not the information of the RFID tag has been correctly read. If fails, you can try again.

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .
FIG. 1 is a diagram showing an overall configuration of a reader / writer according to an embodiment of the present invention. This embodiment will be described by taking a tunnel type reader / writer as an example. This tunnel-type reader / writer (hereinafter referred to as a reader / writer) 100 includes a metal casing 1 that is sufficiently large for a human to pass through and is configured in a tunnel shape, and an RFID tag (hereinafter simply referred to as a tag). ) To transmit a carrier wave and receive a response from the tag, thereby reading the information recorded in the tag, a loop antenna 3 connected to the control unit 2 to transmit the carrier wave, and the surface of the human body The human body detection sensor 4 for detecting the temperature, the weight detection sensor 5 for detecting the weight of the load, the manual switch 6 for manually operating the control unit 2, and the communication result between the tag and the control unit 2 are displayed. And a display lamp 7. In the present embodiment, loop antennas 3 are provided on both side surfaces of the casing 1, connected to the control unit 2 by the cable 8, and at positions where radio waves are optimally applied to the tags attached to the luggage. Be placed. Accordingly, the number may be larger or smaller. In addition, the human body detection sensor 4 is installed at a position where a human body is not detected when, for example, a load placed on a carriage or the like reaches the weight detection sensor 5. Further, although the communication result is displayed by the display lamp 7, notification by sound may be used or these may be used together.
Next, a schematic operation of the reader / writer 100 according to the present embodiment will be described with reference to FIG. Assume that the operator 9 transports the luggage 11 placed on the carriage 10 in the direction of the arrow and passes through the reader / writer 100. At this time, a tag 12 is attached to the luggage 11, and the reader / writer 100 is in an operation stop state. When the carriage 10 reaches the weight detection sensor 5, the weight detection sensor 5 detects that the weight is a predetermined weight, and when the human body detection sensor 4 does not detect the worker 9, a carrier wave loops from the control unit 2. Radiated through the antenna 3. As a result, the tag 12 starts its operation, and exchanges data with the control unit 2 (the detailed operation is not the main point of the present invention and is omitted). These operation procedures are performed by known procedures. When the communication is successful, an OK lamp (for example, a green lamp) of the display lamp 7 is turned on to notify the operator 9. When the worker 9 confirms that and passes through the housing 1, the human body detection sensor 4 detects the worker 9 and stops the operation of the control unit 2.

FIG. 2 is a block unit showing the internal configuration of the control unit 2. The same reference numerals are assigned to the same components, and duplicate descriptions are omitted. The control unit 2 includes a CPU 2a that operates according to a program stored in a ROM (not shown), and a transmission / reception unit 2b that transmits a carrier wave and a protocol signal from the loop antenna 3 by the CPU 2a and receives information on the tag 12. Composed. The signals of the human body detection sensor 4, the weight detection sensor 5, and the manual switch 6 are connected to the I / O port of the CPU 2a. The display lamp 7 is connected to the I / O port of the CPU 2a via a driver (not shown). In a general control method, an input signal is polled at a predetermined time interval to monitor a signal state, and an output port is latched and controlled to change its state.
FIG. 3 is a diagram schematically illustrating the relationship between the worker 9 and the detection area of the human body detection sensor 4. The same reference numerals are assigned to the same components, and duplicate descriptions are omitted. In this figure, the detection area is represented as 20. 3A shows a case where the weight of the carriage 10 is detected by the weight detection sensor 5, but the operator 9 does not reach the detection area 20. FIG. 3B shows the case where the carriage 10 detects the weight. 5 shows a case where the weight is detected and the worker 9 has also reached the detection area 20, FIG. 3C shows the weight of the carriage 10 detected by the weight detection sensor 5, and the worker 9 The case where it deviates from the detection area 20 is represented. That is, the information of the tag 12 is read according to FIG. 3 (a), the control unit 2 stops the operation of the reader / writer according to FIG. 3 (b), and moves to the standby state for the next operation according to FIG. 3 (c). Represents.

FIG. 4 is a flowchart for explaining the operation of the first embodiment of the reader / writer 100 of the present invention. First, it is monitored whether or not the weight detection sensor 5 has detected a predetermined weight (S1). When a predetermined weight is detected (YES route in S1), it is determined whether or not the human body detection sensor 4 has detected a human body. Monitor (S2). If a human body is detected (YES route in S2), the operation is immediately stopped regardless of whether the reader / writer is activated (S8), and the process returns to step S1. When the human body is not detected in step S2 (NO route in S2), the reader / writer 100 is operated to transmit a carrier wave from the loop antenna 3 (S3), and the data of the tag 12 is read by the protocol procedure and the communication is successful. It is checked whether it has failed or not (S4). As a result, if the communication fails (NO route in S4), the NG lamp of the display lamp 7 is turned on (S9), the operation of the reader / writer 100 is stopped (S8), and the process returns to step S1. If the communication is successful in step S4 (YES route in S4), the OK lamp of the display lamp 7 is turned on (S5), and the record information of the tag 12 is stored in the memory of the control unit 2 (S6). The operation is stopped (S7).
When the reader / writer 100 operates in this way, a radio wave regulated by the Radio Law is radiated from the loop antenna 3. When not in use, radio waves from the reader / writer 100 are stopped to avoid unnecessary power consumption and to minimize the influence on surrounding electronic devices. In order to realize this, the present embodiment includes a human body detection sensor 4, a manual switch 6, and a weight detection sensor 5. The weight detection sensor 5 detects that a load having a predetermined weight is loaded, and detects the human body. When the sensor 4 does not detect a human body, the recorded information of the tag 12 attached to the luggage 11 is read by the reader / writer 100. The reason why the condition of the manual switch 6 is not observed at this time is that the reader / writer 100 is automatically operated when the load 11 is a predetermined weight or more. Therefore, when the weight detection sensor 5 detects a predetermined weight when the manual switch 6 is pressed, the operation by the manual switch 6 is ignored. As a result, unnecessary power consumption can be avoided and the influence on surrounding electronic devices can be minimized.
Further, by omitting the manual switch 6 and increasing the sensitivity of the weight detection sensor 5, the width of the load weight detection can be widened. By doing so, the operation is automated and the convenience of the operator can be enhanced.

FIG. 5 is a flowchart for explaining the operation of the second embodiment of the reader / writer 100 of the present invention. First, it is monitored whether or not the manual switch 6 is pressed (S11), and if it is pressed (YES route in S11), it is monitored whether or not the weight detection sensor 5 detects a predetermined weight (S12). 4 is executed (S40: YES route), the flowchart of FIG. 4 is executed (S40). If the predetermined weight is not detected in step S12 (NO route in S12), it is monitored whether or not the human body detection sensor 4 detects a human body (S13). If a human body is detected here (YES in S13), the operation is immediately stopped regardless of whether the reader / writer is activated (S19), and the process returns to step S11. When the human body is not detected in step S13 (NO route in S13), the reader / writer 100 is operated to transmit a carrier wave from the loop antenna 3 (S14), and it is monitored whether or not a predetermined time has passed ( When the time elapses (YES route in S41), the reader / writer 100 is stopped (S15), and the data of the tag 12 is read by the protocol procedure to check whether the communication has succeeded or failed (S16). As a result, if the communication fails (NO route in S16), the NG lamp of the display lamp 7 is turned on (S20), the operation of the reader / writer 100 is stopped (S19), and the process returns to step S11. If the communication is successful in step S16 (YES route in S16), the OK lamp of the display lamp 7 is turned on (S17), and the record information of the tag 12 is stored in the memory of the control unit 2 (S18).
In many cases, the weight detection sensor 5 is designed to have a structure that does not detect the weight detection sensor 5 unless it exceeds a predetermined weight. Therefore, in the case of a light load, it is necessary for the operator 9 to operate the reader / writer 100 by the manual switch 6 after setting the load 11 on the reader / writer 100. At that time, on the condition that the human body detection sensor 4 does not detect the human body, the reader / writer 100 is configured to automatically stop when a predetermined time elapses by a timer or the like. As a result, it is possible to prevent the worker 9 from passing while the reader / writer 100 is operated.
FIG. 6 is a flowchart for explaining the operation of the third embodiment of the reader / writer 100 of the present invention. First, it is monitored whether or not the manual switch 6 has been pressed (S21). When the manual switch 6 is pressed (YES in S21), it is monitored whether or not the human body detection sensor 4 has detected a human body (S22). If a human body is detected here (YES in S22), the operation is immediately stopped regardless of whether the reader / writer is activated (S29), and the process returns to step S21. When the human body is not detected in step S22 (NO route in S22), the reader / writer 100 is operated to transmit a carrier wave from the loop antenna 3 (S23), and it is monitored whether or not a predetermined time has passed ( When the time elapses (YES route in S24), the reader / writer 100 is stopped (S25), and the data of the tag 12 is read by the protocol procedure to check whether the communication has succeeded or failed (S26). As a result, if the communication fails (NO route in S26), the NG lamp of the display lamp 7 is turned on (S30), the operation of the reader / writer 100 is stopped (S29), and the process returns to step S21. When the communication is successful in step S26 (YES route in S26), the OK lamp of the display lamp 7 is turned on (S27), and the record information of the tag 12 is stored in the memory of the control unit 2 (S28).

In the present embodiment, the weight detection sensor 5 is omitted. In other words, when the amount of luggage to be handled is small, even if it is manually operated, workability is not greatly affected. Therefore, the recorded information of the tag 12 is read by setting the package 11 on the reader / writer 100 and pressing the manual switch 6. Thereby, the cost of the apparatus can be reduced.
Moreover, although the case where there was one luggage | load was demonstrated in the above embodiment, two or more may be sufficient. At that time, tag recording information is stored and aggregated by a personal computer (not shown). However, if the communication fails, recording and counting are not performed, so this situation needs to be notified to the operator 9 in some form. Therefore, by providing the display lamp 7 in the reader / writer 100 of the present invention, whether the operator 9 has passed the reader / writer 100 or operated the reader / writer 100 by the manual switch 6 to correctly read the recorded information on the tag 12 of the luggage 11. It can be determined whether or not. As a result, the operator 9 can immediately determine whether or not the information of the tag 12 has been correctly read. If the reading has failed, the worker 9 can start again.

1 is a diagram illustrating an overall configuration of a reader / writer according to an embodiment of the present invention. It is a block part showing the internal structure of the control part 2 of this invention. It is the figure which modeled the relationship between the worker 9 of this invention, and the detection area of the human body detection sensor 4. FIG. It is a flowchart explaining operation | movement of 1st Embodiment of the reader / writer 100 of this invention. It is a flowchart explaining operation | movement of 2nd Embodiment of the reader / writer 100 of this invention. It is a flowchart explaining operation | movement of 3rd Embodiment of the reader / writer 100 of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Case, 2 Control part, 3 Loop antenna, 4 Human body detection sensor, 5 Weight detection sensor, 6 Manual switch, 7 Indicator lamp, 9 Worker, 10 trolley, 11 Luggage, 12 RFID tag

Claims (8)

A reader / writer configured to collectively read information recorded in RFID tags attached to a package to be transported,
A human body detection sensor that detects that a human body that transports the baggage approaches a predetermined distance from the reader / writer, a manual switch that controls the operation of the reader / writer by manual operation, and a weight of the baggage that passes is predetermined. A weight detection sensor for detecting the above,
When the human body transports a bag with an RFID tag and passes through the reader / writer, the weight detection sensor detects that the weight of the baggage passing is greater than a predetermined value, and the human body detection sensor detects the human body. If not, the reader / writer is operated to read the information recorded in the RFID tag.   When the human body transports a bag with an RFID tag and passes through the reader / writer, the weight detection sensor does not detect a load lower than a predetermined weight when the manual switch is pressed, and the human body detection sensor The reader / writer according to claim 1, wherein when the human body is not detected, the reader / writer is operated for a predetermined time. A reader / writer configured to collectively read information recorded in RFID tags attached to a package to be transported,
A human body detection sensor that detects that a human body carrying the load has approached a predetermined distance with respect to the reader / writer, and a weight detection sensor that detects that the weight of the load passing through is greater than or equal to a predetermined value.
When the human body carries a bag with an RFID tag and passes through the reader / writer, the weight detection sensor detects that the weight of the baggage passing is greater than a predetermined value, and the human body detection sensor detects the human body. If not, the reader / writer is operated to read the information recorded in the RFID tag. A reader / writer configured to collectively read information recorded in RFID tags attached to a package to be transported,
A human body detection sensor for detecting that a human body carrying the load has approached a predetermined distance with respect to the reader / writer, and a manual switch for controlling the operation of the reader / writer by manual operation,
When the human body carries a package with an RFID tag and passes through the reader / writer, when the manual switch is pressed and the human body detection sensor does not detect the human body, the reader / writer is operated for a predetermined time. A reader / writer characterized in that   5. The human body detection sensor according to claim 1, wherein the human body detection sensor detects infrared rays, and turns on the human body detection sensor when the color temperature of the infrared rays is equal to or higher than a predetermined temperature. 6. Reader / writer.   The reader / writer according to claim 1, wherein the predetermined weight detected by the weight detection sensor is a weight within a preset range.   5. The reader according to claim 2, wherein the predetermined time for operating the reader / writer is a time necessary for the reader / writer to read information recorded in the RFID tag or a time longer than the time. lighter.   It comprises a result reporting means for reporting whether or not the reader / writer has read the information recorded in the RFID tag correctly, and the result reporting means reports the quality of the reading result by a light emitting means or sound or voice. The reader / writer according to any one of claims 1 to 7.

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