阅读说明：本技术 用于游乐园的交互部件 (Interactive component for amusement park ) 是由 W·C·叶 T·J·科塞尔特 于 2018-12-14 设计创作，主要内容包括：一种娱乐系统具有用于游乐园的交互部件。交互部件包括：检测装置,其设置于壳体内,并且配置成经由远程和近程无线电通信来读取标识标签；交互传感器,其设置于壳体内,并且配置成检测与交互部件的一部分的物理交互；控制装置,其通信地耦合到检测装置和交互传感器,其中,控制装置配置成从检测装置和交互传感器接收反馈；效果装置,其配置成从控制装置接收信号并且配置成基于检测到物理交互而生成效果；以及传送器,其配置成当在交互部件的阈值距离内检测到标识标签时,基于检测到与交互部件的一部分的物理交互而将数据传送到标识标签。(An entertainment system has an interactive component for an amusement park. The interactive component includes: a detection device disposed within the housing and configured to read the identification tag via long-range and short-range radio communication; an interaction sensor disposed within the housing and configured to detect a physical interaction with a portion of the interaction component; a control device communicatively coupled to the detection device and the interaction sensor, wherein the control device is configured to receive feedback from the detection device and the interaction sensor; an effects device configured to receive a signal from the control device and configured to generate an effect based on detecting the physical interaction; and a transmitter configured to transmit data to the identification tag based on detecting a physical interaction with a portion of the interactive component when the identification tag is detected within a threshold distance of the interactive component.)

1. An entertainment system comprising an interactive component for an amusement park, wherein the interactive component comprises:

a detection device disposed within the housing and configured to read the identification tag via long-range and short-range radio communication;

an interaction sensor disposed within the housing and configured to detect a physical interaction with a portion of the interaction component;

a control device communicatively coupled to the detection device and the interaction sensor, wherein the control device is configured to receive feedback from the detection device and the interaction sensor; and

an effect device configured to receive a signal from the control device and generate an effect based on detecting the physical interaction with the portion of the interactive component; and

a transmitter configured to transmit data to the identification tag based on detecting the physical interaction with the portion of the interactive component when the identification tag is detected within a threshold distance of the interactive component.

2. The entertainment system of claim 1 wherein the interaction sensor comprises an accelerometer or a piezoelectric sensor or both, and wherein the interaction sensor is disposed proximate to the portion of the interactive component.

3. The entertainment system of claim 1 wherein the detection means comprises: an Ultra High Frequency (UHF) antenna configured to detect a UHF Radio Frequency Identification (RFID) tag of the identification tags; and a near field communication antenna configured to detect a near field communication RFID tag of the identification tag.

4. The system of claim 1, wherein the detection device comprises an ultra-high frequency transceiver, and wherein the ultra-high frequency transceiver and the control device are an integral unit.

5. The entertainment system of claim 1 wherein the effects device comprises a visual effects device or an audio effects device or both.

6. The entertainment system of claim 5 wherein the visual effects device comprises a monitor.

7. The entertainment system of claim 5 wherein the audio effect device comprises a speaker.

8. The entertainment system of claim 1 wherein the control device is configured to be communicatively coupled to a control system of the amusement park, wherein the control device is configured to award a score to an account associated with the identification tag upon detecting the interaction with the portion of the interactive component when the identification tag is detected within a threshold distance of the interactive component.

9. An entertainment system according to claim 8 comprising the control system of the amusement park, wherein the control system of the amusement park is configured to display the points awarded on a display located in the amusement park.

10. The entertainment system of claim 1 wherein the interactive component is configured to be mounted to a structural support of the amusement park using a mounting component.

11. The entertainment system of claim 10 wherein the structural support includes a height adjustment feature configured to move the interactive component based on a user characteristic stored in a database and associated with the identification tag.

12. The entertainment system of claim 11 wherein the control device is configured to set an adjusted height of the height adjustment feature based on the user characteristic in response to the detection device detecting the identification tag.

13. A system, comprising:

an interactive component disposed in an environment of an amusement park, the interactive component comprising:

a detection device configured to communicate with a customer identification tag;

an interaction sensor configured to detect physical proximity from and/or interaction with a portion of the interaction component;

a control device communicatively coupled to the detection device and the interaction sensor, the control device configured to receive feedback from the detection device and the interaction sensor, and configured to award a score to a customer profile associated with the customer identification tag upon detecting the interaction with the portion of the interactive component when the customer identification tag is within a threshold proximity; and

an effect device configured to receive a signal from the control device to generate an effect upon detection of the interaction with the portion of the interactive component;

a display disposed in the environment of the amusement park; and

a control system of the amusement park communicatively coupled to the control apparatus of the interactive component, wherein the control system is configured to send one or more signals to the display to display information based on the points awarded to the customer profile.

14. The system of claim 13, wherein the display is configured to show a highest score for a predetermined number of customers of the amusement park.

15. The system of claim 13, wherein the interaction sensor comprises an accelerometer or a piezoelectric sensor or both, and wherein the interaction sensor is disposed proximate to the portion of the interactive component.

16. The system of claim 13, wherein the effects generated by the effects device are personalized for the customer profile based on preferences identified in the customer profile.

17. A method, comprising:

identifying, using a detection device, a customer device proximate to an interactive component disposed in an environment of an amusement park;

upon detecting, using the detection device, a presence of the customer device within a threshold distance of a point relative to the interactive component, detecting, using an interaction sensor, an interaction with the interactive component associated with the identified customer device; and

generating an effect using an effects device based on the detected interaction with the interactive component associated with the identified customer device when the presence of the identified customer device within the threshold distance from the point of the interactive component is detected.

18. The method of claim 17, comprising using a height adjustment feature to set an adjusted height of the interactive component based on user characteristics determined from a customer profile associated with the customer device.

19. The method of claim 18, wherein setting the adjusted height of the interactive component comprises adjusting a height of a telescoping beam of a mounting device coupled to the interactive component.

20. The method of claim 17, comprising:

detecting a proximity of the customer device to the point of the interactive component using the detection device or proximity sensor; and

actuating an additional effect using the effect device when the customer device is within a predetermined distance from the point of the interactive component, the additional effect indicating how to interact with the interactive component, wherein the predetermined distance is greater than the threshold distance.

Background

The present disclosure relates generally to the field of amusement parks. More particularly, embodiments of the present disclosure relate to interactive components for amusement parks.

This section is intended to introduce the reader to various aspects of art, which may be related to various aspects of the present disclosure, which are described below. This discussion is believed to be helpful in providing the reader with background information to facilitate a better understanding of the various aspects of the present disclosure. Accordingly, it should be understood that these statements are to be read in this light, and not as admissions of prior art.

Amusement parks include a wide variety of rides that provide a unique experience to each park patron. Adding large attractions, such as rides and shows, generally provides amusement parks with the additional ability to handle a greater number of patrons. However, such attractions tend to attract more visitors and become the center for customer traffic. Moreover, the addition of a conventional ride without adding a layer of entertainment may not be sufficient to obtain sufficient customer interest in addressing customer traffic problems or providing advantages over competitors. In some cases, an amusement park may include a wide variety of interactive features that are utilized to entertain park customers while waiting at and/or traveling between large attractions. As the sophistication and complexity of modern attractions increase, and the corresponding increase in expectations in amusement and/or theme park customers, there is a need for improved and more creative attractions, including attractions that provide a more interactive and personalized experience.

Disclosure of Invention

Certain embodiments that correspond in scope to the originally claimed subject matter are summarized below. These embodiments are not intended to limit the scope of the present disclosure, but rather, they are intended only to provide a brief summary of certain disclosed embodiments. Indeed, the present disclosure may encompass a variety of forms that may be similar to or different from the embodiments set forth below.

In one embodiment, an entertainment system has an interactive component for an amusement park, wherein the interactive component comprises: a detection device disposed within the housing and configured to read the identification tag via long-range and short-range radio communication; an interaction sensor disposed within the housing and configured to detect a physical interaction with a portion of the interaction component; a control device communicatively coupled to the detection device and the interaction sensor, wherein the control device is configured to receive feedback from the detection device and the interaction sensor; an effects device configured to receive a signal from the control device and generate an effect based on detecting a physical interaction with a portion of the interactive component; and a transmitter configured to transmit data to the identification tag based on detecting a physical interaction with a portion of the interactive component when the identification tag is detected within a threshold distance of the interactive component.

In another embodiment, a system includes an interactive component disposed in an environment of an amusement park. The interactive component includes: a detection device configured to communicate with a customer identification tag; an interaction sensor configured to detect physical proximity from and/or interaction with a portion of the interaction component; a control device communicatively coupled to the detection device and the interaction sensor, wherein the control device is configured to receive feedback from the detection device and the interaction sensor, and wherein the control device is configured to award a score to a customer profile associated with the customer identification tag upon detecting interaction with a portion of the interactive component when the customer identification tag is within a threshold proximity; an effect device configured to receive a signal from the control device to generate an effect upon detection of interaction with a portion of the interactive component; a display disposed in an environment of an amusement park; and a control system of the amusement park communicatively coupled to the control of the interactive component, wherein the control system is configured to send one or more signals to the display to display information based on the points awarded to the customer profile.

In another embodiment, a method comprises: identifying, using a detection device, a customer device proximate to an interactive component disposed in an environment of an amusement park; upon detecting, using a detection device, a presence of a customer device within a threshold distance relative to a point of an interactive component, detecting, using an interaction sensor, an interaction with an interactive component associated with the identified customer device; and generating an effect using an effects device based on an interaction with an interaction component associated with the customer device when the identified customer device is detected to be present within a threshold distance of the point relative to the interaction component.

Drawings

These and other features, aspects, and advantages of the present disclosure will become better understood when the following detailed description is read with reference to the accompanying drawings in which like characters represent like parts throughout the drawings, wherein:

FIG. 1 is a schematic diagram of an embodiment of a system including an interactive component for an amusement park in accordance with aspects of the present disclosure;

FIG. 2 illustrates an embodiment of an environment of an amusement park having the interactive components of FIG. 1 in accordance with aspects of the present disclosure;

FIG. 3 illustrates an embodiment of an environment of an amusement park having the interactive component of FIG. 1 and a customer interacting with the interactive component, in accordance with aspects of the present disclosure;

FIG. 4 illustrates an embodiment of an environment of an amusement park having the interactive components of FIG. 1 in accordance with aspects of the present disclosure;

FIG. 5 illustrates an embodiment of an environment of an amusement park having the interactive components of FIG. 1 in accordance with aspects of the present disclosure;

FIG. 6 is a perspective view of an embodiment of the interactive component of FIGS. 1-5, in accordance with aspects of the present disclosure; and

FIG. 7 is a flow diagram of an embodiment of a process for using the interactive components of FIGS. 1-6, according to aspects of the present disclosure.

Detailed Description

One or more specific embodiments of the present disclosure will be described below. In an effort to provide a concise description of these embodiments, all features of an actual implementation may not be described in the detailed description. It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions must be made to achieve the developers' specific goals, such as compliance with system-related and business-related constraints, which may vary from one implementation to another. Moreover, it should be appreciated that such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

Amusement parks feature a wide variety of entertainment, such as amusement park rides, performance shows, and games. Different types of entertainment may include features that enhance a customer's experience at an amusement park. For example, the interaction component may detect a customer's interaction and generate an effect based on the interaction.

Embodiments of the present disclosure relate to improved interactive components that may be utilized at an amusement park. The interactive component may enable a customer of the amusement park to physically interact with a portion of the interactive component (e.g., a surface, a button, a sensor, or another suitable feature) to generate an effect. In some embodiments, the interactive components may include cylinders, spheres, drums, blocks, cubes, or other suitable shapes that may be activated upon physical contact by a customer. For example, the interactive component may include a surface having a relatively soft, flexible, or plush material that a consumer may physically contact (or contact an object). Upon physical contact with the surface, the sensor of the interacting component may detect the interaction and send feedback to the control device, which may activate the effect. The effect may include generating a sound, generating a display, rewarding the customer's score related to competition within the park, rewarding the customer's score related to personalized competition for the customer, another suitable effect, and/or combinations thereof.

In some embodiments, the interactive component is configured to detect a customer when the customer approaches the interactive component. Thus, the interactive component may generate an effect (or otherwise prepare for interaction) when the customer is in close proximity to the interactive component and/or before the customer physically interacts with the interactive component. Also, the interaction component may be configured to detect the identity of the customer via an identification tag carried by and associated with the customer (e.g., an RFID tag or device carried by the customer). As such, the interactive component may generate effects that are personalized to the customer and/or award points to the particular customer interacting with the interactive component. In any case, a plurality of interactive components may be located throughout the park such that a customer may find a particular interactive component and, upon finding it, physically contact the interactive component. Accordingly, patrons that are not otherwise engaged (e.g., riding a roller coaster or watching a show) may interact with the interactive features to enhance the patron's experience while located at the amusement park (e.g., in a public area, in a queue, or in a dedicated interactive space).

Turning to the drawings, FIG. 1 illustrates an embodiment of a schematic diagram of a system 10 (e.g., an entertainment system) that includes an interactive component 12 for an amusement park. As shown in the illustrated embodiment of fig. 1, system 10 includes a network 14 that may be utilized throughout an amusement park. In some embodiments, network 14 may enable communication between interactive component 12 and other components and/or devices in an amusement park. For example, in some embodiments, network 14 is a wireless communication system that transmits and receives wireless signals from a plurality of devices in an amusement park via Wi-Fi, bluetooth, another suitable wireless communication technology, or a combination thereof. In any case, the interactive component 12 may communicate with one or more components or devices of the amusement park via the network 14.

For example, the interactive component 12 may be communicatively coupled to the server 16 via the network 14 such that the server 16 may send, receive and/or store data and information from the interactive component 12. For example, the data and information sent and/or received from the interactive component 12 may be personalized for a particular customer of the amusement park because the interactive component 12 may identify the particular customer (e.g., via an RFID tag assigned to and transferred by the particular customer) and associate interactions with the interactive component 12 to the particular customer. As such, in some embodiments, the server 16 sends data and information from the interactive component 12 to the control system 18, which may ultimately cause the data or information from the interactive component 12 to be displayed at a particular location (e.g., a score board, one or more monitors) in the amusement park.

Additionally or alternatively, the control system 18 may send a signal back to the interactive component 12 to generate a personalized effect (e.g., display an image or movie, illuminate a light, generate a sound) for a particular customer. For example, a customer of an amusement park may fill out a questionnaire and/or otherwise select various items of interest, which may be stored in a customer profile (e.g., on server 16). The customer profile may be associated with the customer's identification tag (e.g., an RFID tag) such that when the identification tag is detected during interaction with the interactive component 12, the interactive component 12 selects from a plurality of available effects based on the customer profile and generates an effect suitable for the customer. As a non-limiting example, the customer may identify that dinosaurs are of particular interest. As such, when a customer physically contacts the interactive component 12, the interactive component may detect the customer (e.g., via an RFID tag) and generate dinosaur roar audio.

As shown in the illustrated embodiment of fig. 1, the interaction component 12 may include various hardware disposed in the housing 19 that enables the interaction component 12 to detect a customer, detect an interaction initiated by a customer, and/or generate the effect. For example, the interactive component 12 includes a control device 20. Control device 20 may be communicatively coupled to control system 18 (e.g., control system 18 of an amusement park) via network 14. Also, the control device 20 may be coupled to a first antenna 22 (e.g., an Ultra High Frequency (UHF) antenna) and/or a second antenna 24 (e.g., a Near Field Communication (NFC) antenna), which first antenna 22 and/or second antenna 24 may be configured to detect and/or identify a customer in combination with a transceiver 25 (e.g., an RFID transceiver). In some embodiments, the transceiver 25 (e.g., a UHF transceiver or an NFC transceiver) and the control device 20 are an integral unit. As such, the first antenna 22, the second antenna 24, and/or the transceiver 25 may be referred to as a detection device for detecting and/or identifying a customer. For example, the first antenna 22, the second antenna 24, and/or the transceiver 25 may emit electromagnetic waves (e.g., long-range and/or short-range radio communications) that are received by an identification tag (e.g., an RFID tag or customer device) associated with a particular customer. As such, first antenna 22, second antenna 24, and/or transceiver 25 may identify a particular customer (and associated customer profile) by communicating with an identification tag (e.g., a Radio Frequency Identification (RFID) tag or other suitable identification device disposed on a wristband, wearable badge, handheld or mobile device, identification card, another suitable identification component (e.g., a themed prop), or a combination thereof) when the particular customer is located a threshold distance from the interactive component 12. In some embodiments, the threshold distance for the first antenna 22 is different than the threshold distance for the second antenna 24 such that the first antenna 22 and the second antenna 24 communicate with the identification tag when the identification tag is positioned at different distances from the interactive component 12.

In some embodiments, the identification tag may include a UHF RFID tag component and a near field communication RFID tag component, such that the first antenna 22 (e.g., UHF antenna) and the second antenna 24 (e.g., NFC antenna) may communicate with the identification tag at different ranges, either separately or simultaneously. Also, the transceiver 25 (e.g., transmitter) may transmit data and/or information to the identification tag based on interaction with the interactive component 12 by a customer associated with the identification tag. For example, when a customer is detected to be within a threshold distance of the interactive component 12, the transceiver 25 may send data to the customer signaling that the customer is approaching the interactive component 12 and/or data informing the customer that a certain score has been won for reaching the interactive component 12.

In some embodiments, each customer may wear a wristband that includes a Radio Frequency Identification (RFID) tag. As used herein, an RFID tag may include electronic circuitry and an antenna disposed above the electronic circuitry to transmit signals to and/or receive signals from the first antenna 22, the second antenna 24, and/or the transceiver 25. As such, the first antenna 22 (which may be a UHF antenna) and the first transceiver 25 (e.g., a first RFID transceiver) detect the RFID tag of the customer when the customer is within range of the first antenna 22 and the first transceiver 25. Accordingly, the control device 20 may identify the customer so that a personalized effect and/or a score awarded to the customer may be generated. Also, the second antenna 24 (which may be an NFC antenna) and the second transceiver 25 (e.g., a second RFID transceiver) detect the RFID tag of the customer when the customer is relatively in close proximity (e.g., within 50 centimeters) to the interactive component 12. In some embodiments, the second antenna 24 and second RFID transceiver 25 detect that the customer is in close proximity to the interactive component 12 and generate this effect without the customer physically contacting the interactive component 12 or based on this signal and without contact. Additionally or alternatively, the first antenna 22, the second antenna 24, and/or the transceiver 25 may reprogram or update the customer's RFID tag to reflect the customer's interaction with a particular interaction component 12 in the amusement park.

In some embodiments, the interactive component 12 may include a proximity sensor 26 (e.g., in addition to or instead of an NFC antenna and transceiver), and the proximity sensor 26 may be configured to detect a proximity of a customer to the interactive component 12 (e.g., a distance from the interactive component 12). For example, the proximity sensor 26 may send feedback to the control device 20 indicating the position of the customer relative to the interactive component 12. In some embodiments, the control device 20 may actuate an effect when a customer is within a predetermined distance relative to the interactive component 12. As a non-limiting example, the control device 20 may send a signal to illuminate a light (e.g., one or more Light Emitting Diodes (LEDs) in the shape of an arrow pointing at the interaction surface) that may provide instructions to the customer on how to interact with the interaction component 12. In addition, the control device 20 is coupled to an interaction sensor 28, the interaction sensor 28 being utilized to detect customer interaction with the interactive component. For example, the interaction sensor 28 may include an impact sensor (impact sensor), such as an accelerometer or a piezoelectric sensor. Thus, the interaction sensor 28 may detect contact between the customer and the interactive component 12 and send a signal to the control device 20 to initiate an effect.

In some embodiments, the interactive component 12 may include a visual effects device 30 (e.g., a light, a monitor) and/or an audio effects device 32 (e.g., a speaker). As such, the control device 20 of the interactive component 12 may activate the visual effects device 30 and/or the audio effects device 32 based on the detected interaction and/or the particular customer initiating the interaction. In some embodiments, the control device 20 uses the visual effects device 30 and/or the audio effects device 32 to actuate a particular effect regardless of the particular customer initiating the interaction (e.g., via the interaction sensor 28). In other embodiments, the control device 20 may create a personalized effect by actuating the visual effects device 30 and/or the audio effects device 32 based on the particular customer identified by the interactive component 12 (e.g., via an RFID tag). Additionally or alternatively, control device 20 may detect interaction with interactive component 12 and send a signal to control system 18 (e.g., via network 14) to award a score to a particular customer. As such, control system 18 may send one or more signals to display the score for a particular customer at a predetermined location around the amusement park.

Still further, the control system 18 may be configured to control the timing of the actuation of the visual effects device 30 and/or the audio effects device 32. For example, in some cases, the interaction component 12 includes: an active state that enables the interactive component 12 to generate the effect (e.g., activate the visual effects device 28, activate the audio effects device 30, and/or award points to the customer); and an inactive state in which the interactive component 12 may not generate the effect despite interaction with the interactive component 12 by the customer. As such, control system 18 may be configured to activate visual effects device 30, audio effects device 32, and/or another suitable device within interactive element 12 to inform patrons of the amusement park when the interactive element is in an active state and/or an inactive state. After the interactive component 12 detects interaction with the interactive component 12, the interactive component may enter an inactive state for a predetermined period of time (e.g., 1 minute, 5 minutes, 10 minutes, 30 minutes, 1 hour, or more than 1 hour). After the predetermined period of time, the control system 18 may send a signal to the interactive component 12 to provide an indication (e.g., a green light) that the interactive component 12 is in an active state. In still further embodiments, the interactive component 12 may include a semi-active state in which the interactive component 12 activates the visual effects device 30 and/or the audio effects device 32 upon interaction with the interactive device 12, but does not award points to the customer.

FIG. 2 illustrates a schematic diagram of an embodiment of the interaction device 12 positioned within an environment 50 of an amusement park. As shown in the illustrated embodiment, the interactive component 12 is mounted to a structural support 52 (e.g., wall, beam, structure) of the amusement park by a mounting device 54. As shown in the illustrated embodiment of fig. 2, the structural support 52 is a wall within an amusement park. In some embodiments, the mounting device 54 is a truss mount that secures the interactive component 12 in a substantially fixed position in the amusement park. As shown in the illustrated embodiment of fig. 2, the interactive component 12 may be positioned at a height 56 from a floor 58 (e.g., ground) of the amusement park. Height 56 may be predetermined based at least on an average height of customers to the amusement park (or an average height of people in an area proximate to the amusement park). For example, in some embodiments, height 56 may be between 0.1 and 1 meter higher than the average height of the customer to the amusement park, between 0.2 and 0.75 meters higher than the average height of the customer to the amusement park, or between 0.25 and 0.5 meters higher than the average height of the customer to the amusement park. Increasing the height 56 beyond the average height of the patron to the amusement park may enable the patron to jump to interact with the interactive component 12 (e.g., to physically contact the bottom surface of the interactive component). However, in other embodiments, height 56 may be at an average height of the customer to the amusement park, may be less than the average height of the customer to the amusement park, or may be any other suitable height (see, e.g., fig. 4).

In some embodiments, the height 56 may be adjustable by a height adjustment feature based on the height of the customer 59 included in the customer profile associated with the identification tag. For example, mounting device 54 may be coupled to telescoping beam 61, and telescoping beam 61 may adjust height 56 of interactive component 12 based on the height of customer 59. The telescopic beam 61 may be coupled to the control device 20 such that the telescopic beam 61 may be actuated by the control device upon receiving height information of the customer 59 upon detection of the identification tag. As shown in the illustrated embodiment of fig. 2, the telescoping beam 61 may be coupled to a power source 63, the power source 63 providing power to a motor or other device configured to raise and lower the telescoping beam 61. The mounting device 54 extends through the wall 52 via a slot 100. In some embodiments, at least a portion of the slot 100 may be covered by the adjustable portion 65, which substantially blocks the view of the patron 59 through the slot 100 and/or substantially blocks access of the patron 59 to the components in the slot 100. Adjustable portion 65 may be coupled to mounting device 54 at a first end 67 and disposed on one or more rollers 69 at a second end 71. The rollers 69 may enable the adjustable portion 65 to make adjustments in length as the mounting device 54 (and thus the interactive component 12) moves due to the telescoping beams 61. In some embodiments, the roller 69 includes a motor or actuator configured to dispense or roll up the adjustable portion 65 as the mounting device 54 is moved to adjust the height 56.

As discussed above, the customer's interaction with the interactive component 12 may award points to the customer's 59 account. As shown in the illustrated embodiment of fig. 2, the environment 50 includes a display 60, the display 60 including a score of a customer interacting with the interaction component 12. For example, the display 60 may be a leaderboard that displays the highest scoring customers within a predetermined amount of time (e.g., a day, a week, a month, a year, all of the time). While the illustrated embodiment of fig. 2 shows a display 60 having three customer scores, in other embodiments, the display 60 may show the respective scores of one, two, four, five, six, seven, eight, nine, ten, or more than ten customers and customers. In still further embodiments, the display 60 may be configured to scroll (scroll through) a scored page listing the customer and the customer's corresponding score. In such an embodiment, the scores of all customers who participated in and interacted with the interaction component 12 may be displayed.

In some embodiments, for example, the interactive component 12 is configured to generate an effect upon detection of a customer via the proximity sensor 26. The interactive component 12 may use the first antenna 22, the second antenna 24, the transceiver 25, and/or the proximity sensor 26 to detect that the customer is within the predetermined distance 62 from the interactive component 12 and generate an effect (e.g., thereby drawing the customer's attention to the interactive component 12). In some cases, the effect may direct the customer to contact the interactive component 12 at a particular point. For example, the surface 64 (e.g., a contact surface or impact surface) of the interactive component 12 may comprise a relatively plush or flexible surface that a patron contacts with a hand or object (e.g., a toy hammer or sword). Although the illustrated embodiment of FIG. 2 shows surface 64 as the lowest surface of interactive component 12 relative to floor 58, surface 64 may be positioned on any suitable face of interactive component 12 in accordance with the present embodiments. In some embodiments, the proximity sensor 26 sends a signal to the control device 20 indicating the position of the customer relative to the interactive component 12. Thus, the control device 20 sends a signal to the visual effects device 30 (e.g., one or more LEDs) as follows: visual cues are provided to the customer to guide the customer how to properly interact with the interactive component 12. By way of non-limiting example, the visual effects device 30 may include a plurality of LEDs in the shape of arrows directed at the surface 64 to guide a customer into physical contact with the surface 64.

Also, as discussed above, the interactive component 12 may detect a particular customer via an identification tag 66 (e.g., an RFID tag) associated with the customer. As shown in the illustrated embodiment of fig. 2, the identification tag 66 may be included on a wearable item worn by the customer around the wrist. In other embodiments, the identification tag 66 may be included on a handheld device (e.g., a cellular telephone or other electronic device) carried by the customer, an identification badge, an identification card, an identification object, or any other suitable component that may communicate with the first antenna 22, the second antenna 24, and the transceiver 25. Accordingly, the interactive component 12 may determine the identity of the customer and thus generate a personalized effect for the customer (e.g., based on the customer's preferences included in the customer account or profile) and/or award a score (e.g., a point) to the particular customer associated with the identification tag 66.

In some embodiments, the customer 59 physically contacts a portion (e.g., surface 64) of the interactive component 12 to actuate an effect. For example, FIG. 3 illustrates an embodiment of an environment 50 and a customer 59 interacting with the interactive component 12. As shown in the illustrated embodiment of fig. 3, a customer may physically contact surface 64 (or another suitable portion of interactive component 12) to generate an effect. As discussed above, the interactive component 12 of fig. 1 includes an interactive sensor 28, and the interactive sensor 28 may include an accelerometer or a piezoelectric sensor. Interaction sensor 28 may detect contact by customer 59 via vibrations of surface 64 and/or other movements of surface 64 caused when customer 59 contacts surface 64. The interaction sensor 28 may send feedback to the control device 20 indicating contact made by the customer 59. The control device 20 may then send a signal to the visual effects device 30 and/or the audio effects device 32 to generate an effect. In other embodiments, the visual effects device 30 and/or the audio effects device 32 may generate the effect as soon as the customer is within close proximity to the interaction sensor 28 as fed back from the second antenna 24 (e.g., NFC antenna) and the second transceiver 25. In such an embodiment, the customer may not physically contact the interactive component 12 to generate the effect.

As shown in the illustrated embodiment of fig. 3, the interactive component 12 generates sound 80 (e.g., via the audio effect device 32) when a customer contacts the surface 64. Additionally or alternatively, the interactive component 12 may create the visual effects 82 via the monitor 84 and/or the visual effects device 30. As discussed above, the sound 80 and/or visual effect 82 may be personalized for a particular customer 59 contacting the interactive component 12. In some cases, the generated sound 80 and/or visual effect 82 may be based on a profile of the customer 59, the profile of the customer 59 linked to the identification tag 66 of the customer 59. Customer 59 may select various preferences or identify topics that are of interest to the customer. Accordingly, sound 80 and/or visual effect 82 may relate to preferences and/or themes identified by the customer. Also, the interactive component 12 may add a score to the display 60 to show that the customer has contacted the interactive component 12.

As shown in the illustrated embodiment of fig. 3, the height 56 of the interactive component 12 enables a customer to jump from the floor 58 to contact a surface 64 of the interactive component 12. However, in other embodiments, the height 56 may be reduced to facilitate customer interaction with the interactive component 12. For example, FIG. 4 illustrates an embodiment of an environment 50 in which the height 56 is reduced to facilitate customer interaction in the environment 50. In some embodiments, the interactive component 12 may be movable relative to the wall 52. As such, the height 56 of the interactive component 12 may be modified to suit a particular height of a customer. In some embodiments, the customer may be identified through the interactive component 12 using the identification tag 66, the first antenna 22, the second antenna 24, and/or the transceiver 25. Personalized information about the customer, such as the customer's height, may be included in the customer profile associated with the identification tag 66. Thus, the interactive component 12 may determine the height of the customer 59 and adjust the height 56 of the interactive component to an appropriate distance from the floor 58 based on the height of the customer 59.

To enable adjustment of the height 56, the mounting device 54 may be disposed in a slot or groove 100 along the wall 52. The mounting device 54 may also be coupled to an actuator 102 (e.g., a telescoping beam 61), the actuator 102 configured to guide the mounting device 54 and thus the interactive component 12 along an axis 104 to adjust the height 56. In some embodiments, the actuator 102 may include a telescoping beam 61 and/or a circuit (circuit) or a belt that rotates to adjust the position of the interactive component 12 along the wall 52. Thus, the height 56 may be modified to accommodate customers of various heights. Moreover, as discussed above, the adjustable portion 65 may be configured to cover the slot 100 as the mounting device 54 (and thus the interactive component 12) is moved along the shaft 104.

In other embodiments, the environment 50 may include a positioning component 120 (e.g., a step, a staircase, an inclined surface, or another suitable component), the positioning component 120 may enable a customer to step or climb up toward the interactive component 12. For example, FIG. 5 illustrates an embodiment of an environment 50 having a positioning component 120. Thus, regardless of the height of the customer 59, the customer may utilize the positioning component 120 to reach the interactive component 12. The positioning component 120 may also be adjustable to further enable a customer to reach the interactive component 12. For example, the positioning component 120 may include an automatically stackable component 121, and the automatically stackable component 121 may raise or lower the height 123 of the positioning component 12. In some embodiments, the interactive component 12 may be coupled to another structure of the amusement park rather than the wall 52. For example, as shown in the illustrated embodiment of FIG. 5, the interactive components 12 are mounted to a beam 122, and the beam 122 may be secured within the ground 58. The beam 122 may also be adjustable to adjust the height 56 of the interactive component 12 (e.g., in addition to the positioning component 120, or instead of the positioning component 120). For example, the beam 122 may include a telescoping configuration that enables the beam 122 to adjust the height 56 of the interactive component 12. The telescopic configuration of the beam 122 may enable the height 56 to be adjusted manually (e.g., an operator physically moves the beam 122 to adjust the height 56) or mechanically using an actuator (e.g., a motor). In other embodiments, the interactive component 12 may be mounted to any suitable structural or stationary component within the amusement park.

As discussed above, the customer may physically contact the interactive component 12 to generate the effect and/or receive a score. The surface 64 of the interactive component 12 may include features that provide comfort to the consumer upon physical contact. For example, fig. 6 illustrates a perspective view of the interactive component 12 and the housing 19 of the interactive component 12. As shown in the illustrated embodiment of fig. 6, the surface 64 includes an inner liner 140 along an edge 142 of the surface 64 to provide a resilient cushion immediately after impact by a patron. In other embodiments, the edge 142 of the surface 64 may be formed as a rounded or smooth edge to facilitate interaction with the interactive component 12 by a customer. The surface 64 may also include an elastomeric material 144 (e.g., silicone, rubber, another polymeric material), which elastomeric material 144 may vibrate and/or otherwise move when contacted by a customer. Accordingly, the interaction sensor 128 may detect such vibrations and/or movements to determine that the customer has interacted with the interactive component 12. In some embodiments, surface 64 may also include structural layers that reinforce surface 64 to improve the robustness of surface 64. While the illustrated embodiment of fig. 6 shows the interactive component 12 as having a substantially cylindrical shape, it should be appreciated that the interactive component 12 may comprise any suitable shape, such as a substantially spherical shape, a substantially cubic shape, or another prismatic shape.

Fig. 7 is a flow diagram of an embodiment of a process 160, which process 160 may be utilized by the control device 20 of the interactive component 12 to receive input and generate effects. At block 162, the interactive component 12 may identify the customer proximate to the interactive component 12 using the identification tag 66, the first antenna 22, the second antenna 24, and/or the transceiver 25. For example, the first antenna 22, the second antenna 24, and/or the transceiver 25 may identify the customer by detecting an identification tag 66 that the customer may be wearing and/or gripping. The identification tag 66 may be associated with a customer profile or account that the control device 20 may identify. As such, the interactive component 12 may generate personalized effects and/or award points to the customer based on the customer profile or account. Also, the second antenna 24 (e.g., an NFC antenna) and the second transceiver 25 and/or proximity sensor 26 may be utilized to detect the approach of a customer to the interactive component 12 to actuate one or more devices or effects (e.g., an LED in the shape of an arrow pointing toward the surface 64) that direct the customer how to interact with the interactive component.

At block 164, the interactive component 12 may detect that the customer has interacted with the surface 64. As discussed above, the interaction sensor 28 may detect vibration and/or movement of the surface 64 and send feedback indicative of the interaction to the control device 20. Additionally or alternatively, the second antenna 24 and the second transceiver 25 detect the close proximity of the customer to the interactive component 12 and send feedback to the control device 20. Accordingly, as shown at block 166, the control device 20 may send one or more signals to the devices of the interactive component 12 to generate an effect. For example, the control device 20 may send a signal to the visual effects device 30 and/or a signal to the audio effects device 32 to generate the effect. Additionally or alternatively, the effect may include awarding points to the customer for interaction with the interactive component 12. Accordingly, control device 20 may communicate with control system 18 (e.g., via a network) to award points to the customer. The score may then be displayed on display 60 and/or displayed on another location in the amusement park.

While only certain features of the disclosure have been illustrated and described herein, many modifications and changes will occur to those skilled in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the disclosure. The technology presented and claimed herein is cited and applied to tangible and concrete examples that arguably improve the practical nature of the field of technology, and as such is not abstract, intangible, or purely theoretical. Moreover, if any claim appended at the end of this detailed description contains one or more elements designated as "means for [ performing ] … … [ function" or "step for [ performing ] … … [ function"), it is intended that such elements be construed in accordance with U.S. patent Law 35, clause 112 (f). However, for any claim that contains elements specified in any other way, it is intended that such elements will not be construed in accordance with U.S. patent Law 35, clause 112 (f).