阅读说明：本技术 逼真玩具系统 (Realistic toy system ) 是由 K·博斯特 H·甘兹 于 2021-05-26 设计创作，主要内容包括：如所描述的逼真玩具系统通过经由游戏应用程序与物理玩具以及其游戏变体(化身)通信和交互来为用户提供与该玩具交互的体验,就像它是逼真玩具一样。与其他产品不同,该系统在在线应用程序中提供物理玩具的几乎相同的或虚拟的表示。在线应用程序提供虚拟世界和/或游戏环境,游戏化身存在于该虚拟世界和/或游戏环境中并且部分地通过从用户接收的输入来参与。此输入中的一些从能够影响游戏化身的外观或行为的用户提供给物理玩具。该用户可以玩其在真实世界中的物理玩具和该物理玩具在在线世界中的游戏化身二者并且可以与之交互——这为用户提供单个逼真玩具的体验。(The realistic toy system as described provides the user with the experience of interacting with a physical toy as if it were a realistic toy by communicating and interacting with the toy and its game variants (avatars) via a game application. Unlike other products, the system provides a nearly identical or virtual representation of the physical toy in an online application. The online application provides a virtual world and/or gaming environment in which a gaming avatar exists and participates, in part, through input received from a user. Some of this input is provided to the physical toy from a user that can affect the appearance or behavior of the game avatar. The user may play and interact with both their physical toy in the real world and the game avatar of the physical toy in the online world-this provides the user with the experience of a single realistic toy.)

1. A life-like toy system comprising:

a physical toy, the physical toy comprising: a main control unit, an input unit for receiving incoming data, a communication control unit for managing, processing and transmitting data, and an output unit comprising a speaker, wherein the main control unit controls the input unit, the communication control unit and the output unit by processing data, management requests and processing and tracking queuing requests associated with each unit;

a server computer connected to at least one computing device and programmed to create signals communicated to cause a display to be generated on the at least one computing device as a gaming application, wherein the display shows a virtual world in which a replicated figure of the physical toy exists as a game avatar;

wherein the physical toy is registered to a user account via a unique code in the gaming application on the at least one computing device, the physical toy and the gaming avatar are connected to each other via the computing device and the gaming application, and the physical toy and the gaming avatar each create a request and communicate the request to each other,

wherein upon completion of the request sent by the game avatar by the physical toy, the game avatar receives data corresponding to the completion from the physical toy and outputs a reaction on a display of the game application,

wherein upon completion of the request sent by the physical toy by the game avatar, the physical toy receives data corresponding to the completion from the computing device, the data triggering an output event from the output component,

wherein the physical toy and the playing avatar collectively represent one toy that exists in both the virtual world and the real world, and wherein physical interaction with the physical toy directly affects the playing avatar in the virtual world, and playing the playing avatar in the gaming application causes a responsive reaction in the physical toy.

2. The system of claim 1, wherein the physical toy is made of a plush or plastic material.

3. The system of claim 1, wherein the master control unit manages battery power and usage of the physical toy.

4. The system of claim 1, wherein the physical toy further comprises a wireless device that, when paired with the computing device and when the gaming application is open, transmits data between the physical toy and the game avatar.

5. The system of claim 4, wherein the physical toy is automatically paired with the computing device when the game application is opened and a wireless connection is enabled on both the physical toy and the computing device.

6. The system of claim 1, wherein the physical toy further comprises at least one of: touch sensor, microphone, sound sensor, memory LED lamp, sound chip, speaker, battery, charging port and switch.

7. The system of claim 1, wherein the game application is associated with a user account and the physical toy is associated with the user account and the physical toy is designated as the game avatar in the user account.

8. The system of claim 1, wherein the physical toy further comprises an internal timer that counts a number of requests sent from the playing avatar to physical toy and determines how many requests have been ignored for a specified amount of time and signals the physical toy to switch to a reduced power mode if a threshold number is met.

9. The system of claim 1, wherein a plurality of physical toys associated with different user accounts are connected to the game application along with their corresponding game avatars and permitted to interact with one another through the game application.

10. The system of claim 1, wherein there is a first user associated with the user account and a second user is associated with a second user account, and wherein the server computer uses the first user's playing avatar to control the first user to send a first request to the second user's playing avatar, and the first request is communicated from the second user's playing avatar to the second user's physical toy; and in response to the physical toy of the second user completing the first request, information indicating that the first request has been completed is communicated from the playing avatar of the second user to the playing avatar of the first user and then transmitted to the physical toy of the first user.

11. A method, comprising:

providing a physical toy having an input component for receiving incoming data and a communication control component for managing, processing and transmitting data, and an output component comprising a speaker;

providing at least one computing device wirelessly connected to the physical toy and including a display; and

using a server computer connected to at least one computing device and programmed to create signals communicated to cause a display to be generated on the computing device as a gaming application, wherein the display shows a virtual world in which a facsimile image of the physical toy exists as a gaming avatar;

wherein the physical toy is registered to a user account via a unique code in the gaming application on the at least one computing device, the physical toy and the gaming avatar are connected to each other via the computing device and the gaming application, and the physical toy and the gaming avatar each create a request and communicate the request to each other for completion,

wherein upon completion of the request sent by the game avatar by the physical toy, the game avatar receives data corresponding to the completion from the physical toy and outputs a reaction on a display of the game application,

wherein upon completion of the request sent by the physical toy by the game avatar, the physical toy receives data corresponding to the completion from the computing device, the data triggering an output event from the output component,

wherein the physical toy and the game avatar represent characters that are present in both the virtual world and the real world, and wherein physical interaction with the physical toy affects the game avatar in the virtual world and play of the game avatar generates a response in the physical toy.

12. The method of claim 11, further comprising: pairing the physical toy with the computing device via a wireless connection, and when paired and the gaming application is open, the gaming avatar corresponding to the paired physical toy is selected for play in the gaming application.

13. The method of claim 12, further comprising: sending a request from the game application to the physical toy when the game application does not detect activity or other data received from the physical toy within a specified amount of time.

14. The method of claim 13, wherein the request includes a task to be completed, and when completed, data is communicated to a source of the request to generate at least one of a visual or audible response by the source of the request after completion of the task.

15. The method of claim 11, further comprising: touch input from one or more touch sensors in the physical toy is detected, and data associated with the input is transmitted to the game application via the computing device.

16. The method of claim 11, further comprising: storing requests made to the physical toy by the game application in a request queue when the physical toy is not paired with the computing device, and processing the requests in order when the physical toy is paired and the game application is open.

17. The method of claim 11, wherein there is a first user associated with the user account and there is a second user associated with a second user account, and wherein the method further comprises:

using the first user's gaming avatar, the first user sending a first request to the second user's gaming avatar;

communicating the first request from the second user's gaming avatar to the second user's physical toy; and

in response to the second user's physical toy completing the first request, information indicating that the first request has been completed is communicated from the second user's playing avatar to the first user's playing avatar, and then to the first user's physical toy.

18. The method of claim 11, further comprising: linking the physical toy to the game application via a unique code assigned to the physical toy, wherein upon successful linking, a game avatar representation substantially replicating the physical toy is displayed in the game application.

19. The method of claim 10, wherein a plurality of game avatars and corresponding physical toys associated with different user accounts are connected to the game application and permitted to interact with each other through the game application.

20. A method, comprising:

using a server computer, the server computer in communication with a plurality of computing devices, and the server computer programmed to create signals that are communicated to cause a display to be generated on a computing device as a gaming application, wherein the display creates a virtual world in which a replica of a physical toy that is present in the real world is also present as a gaming avatar;

using the server computer to assign the physical toy to an account in the gaming application via a unique authentication code for the physical toy, which causes the gaming avatar to be displayed in the gaming application;

wherein the server computer sends and receives data to and from the physical toy via wireless communication between the physical toy and the computing device, and causes the gaming application to be updated in accordance with the data received from the physical toy; and is

Wherein when the computing device is paired with the physical toy and the game application is open, the server computer causes the game avatar to respond to the physical toy in the virtual world by exchanging data communications in real time with the physical toy in the real world, and further whereby the game avatar creates and communicates a request to the physical toy, and the server computer receives and processes data corresponding to sensor inputs from the physical toy, and the game application is updated as a result of the sensor inputs from the physical toy.

21. The method of claim 20, wherein the request includes a task to be completed, and when completed, data is communicated to a source of the request to generate a visual or audible response from the source of the request after completion of the task.

22. The method of claim 20, wherein the server computer tracks requests sent to the physical toys in one queue in the gaming application until data is received from the physical toys in response to each request.

23. The method of claim 20, wherein when the physical toy is paired with the computing device and the game application is opened, the server computer causes a request reminder to be displayed in the game application, and the server computer also sends information to the physical toy with the request reminder.

Background

Virtual world web sites have become a popular game and activity avenue for all ages. With a simple user account, users can enter the fictitious world online and interact with website content and other users through their online personas.

Ganz (Ganz), the assignee of the present application, has many patents that take the online virtual world further when it first launches a plush toy with a unique code and an associated virtual online world into which the toy's code is entered to obtain a virtual variant (version) of the toy in the virtual world. Once plush toys are registered online in this manner, users are able to play their virtual toys in the virtual world. The Ganz patent describes how a user adorns a home for a toy, plays games, and wins items such as food, clothing, and home furniture for a toy.

Disclosure of Invention

Described herein is a life toy (live toy) system and method that provides a user with the experience of interacting with a physical toy by communicating and interacting with the physical toy and its game avatar via a game application as if it were a life toy. The system provides nearly identical representations of physical toys in a gaming application. The game application provides a virtual world in a game-based environment in which the game avatar exists and participates in gaming activities, in part, through inputs received from the user. Some of this input comes from the user via the physical toy. The physical toy may receive input from a user and then use the input between the physical toy and a computing device running the gaming applicationOr similar connection, to transmit this input data or some response data to the game avatar in the game application. Thus, the user may influence the appearance or behavior of the game avatar through the physical toy. The user may play and interact with both their physical toy in the real world and the game avatar of the physical toy in the online world-this provides the user with the experience of a single realistic toy.

The realistic toy system may include: a physical toy, the physical toy comprising: a main control unit, an input unit for receiving incoming data, a communication control unit for managing, processing and transmitting data, and an output unit comprising a speaker, wherein the main control unit controls the input unit, the communication control unit and the output unit by processing data, management requests and processing and tracking queuing requests associated with each unit; a server computer connected to at least one computing device and programmed to create signals communicated to cause a display to be generated on the at least one computing device as a gaming application, wherein the display shows a virtual world in which a replicate image (replica image) of the physical toy exists as a gaming avatar; wherein the physical toy is registered to a user account via a unique code in the game application on the at least one computing device, the physical toy and the game avatar are connected to each other via the computing device and the game application, and the physical toy and the game avatar each create and communicate with each other a request, wherein upon completion of the request sent by the game avatar by the physical toy, the game avatar receives data corresponding to the completion from the physical toy and outputs a reaction on a display of the game application, wherein upon completion of the request sent by the physical toy by the game avatar, the physical toy receives data corresponding to the completion from the computing device, the data triggering an output event from the output component, wherein the physical toy and the game avatar together represent a presence in the virtual world and a real world simultaneously And wherein physical interaction with the physical toy directly affects the game avatar in the virtual world, and playing the game avatar in the gaming application causes a responsive reaction in the physical toy.

Additionally, a method is described, the method comprising: providing a physical toy having an input component for receiving incoming data and a communication control component for managing, processing and transmitting data, and an output component comprising a speaker; providing at least one computing device wirelessly connected to the physical toy and including a display; and using a server computer connected to at least one computing device and programmed to create signals communicated to cause a display to be generated on the computing device as a gaming application, wherein the display shows a virtual world in which a replicated figure of the physical toy exists as a game avatar; wherein the physical toy is registered to a user account via a unique code in the gaming application on the at least one computing device, the physical toy and the gaming avatar are connected to each other via the computing device and the gaming application, and the physical toy and the gaming avatar each create and communicate a request to each other for completion, wherein upon completion of the request sent by the gaming avatar by the physical toy, the gaming avatar receives data corresponding to the completion from the physical toy and outputs a reaction on a display of the gaming application, wherein upon completion of the request sent by the physical toy by the gaming avatar, the physical toy receives data corresponding to the completion from the computing device, the data triggering an output event from the output component, wherein the physical toy and the game avatar represent characters that are present in both the virtual world and the real world, and wherein physical interaction with the physical toy affects the game avatar in the virtual world and play of the game avatar generates a response in the physical toy.

Another method is described, the method comprising: using a server computer, the server computer in communication with a plurality of computing devices, and the server computer programmed to create signals that are communicated to cause a display to be generated on a computing device as a gaming application, wherein the display creates a virtual world in which a replica of a physical toy that is present in the real world is also present as a gaming avatar; using the server computer to assign the physical toy to an account in the gaming application via a unique passcode for the physical toy, which causes the gaming avatar to be displayed in the gaming application; wherein the server computer sends and receives data to and from the physical toy via wireless communication between the physical toy and the computing device, and causes the gaming application to be updated in accordance with the data received from the physical toy; and wherein when the computing device is paired with the physical toy and the gaming application is open, the server computer causes the gaming avatar to respond to the physical toy in the virtual world by exchanging data communications with the physical toy in the real world in real time, and further whereby the gaming avatar creates and communicates a request to the physical toy, and the server computer receives and processes data corresponding to sensor inputs from the physical toy, and the gaming application is updated as a result of the sensor inputs from the physical toy.

Drawings

Fig. 1 is a block diagram of a life-like toy system as described herein that facilitates user interaction with a physical or real toy and an online application to implement a physical toy for life-like performance.

Fig. 2 is a block diagram of various features built into a physical toy that may be used in a realistic toy system as discussed in fig. 1.

Fig. 3 is an exemplary schematic diagram of the life-like toy system of fig. 1 as it would be run by a player/user.

Fig. 4 is an exemplary schematic diagram of the life-like toy system of fig. 1 as it would be run by a player/user.

Fig. 5 is an exemplary schematic flow diagram illustrating operation of a physical toy in the realistic toy system of fig. 1.

Detailed Description

A realistic toy system as described herein provides a user with the experience of interacting with a physical toy by communicating with the physical toy via online software or a game application as if it were a realistic toy. Unlike other products, the system provides a nearly identical or virtual representation of the physical toy in an online application. The online application provides a virtual world and/or game environment in which the virtual toy exists as a game avatar and participates, in part, through input received from the user. Some of this input is provided to the physical toy from a user who can affect the appearance or behavior of the game avatar in the online application. The physical toy and the game avatar are integrated together as a single character. As will be described in greater detail below, the user is able to play and may interact with both their physical toy and an electronic variant of their physical toy, an avatar of a game, that is the same appearance in the online world, where the avatar of a game and the physical toy together create a single character or experience of a realistic toy for the user.

Referring to fig. 1, a block diagram of a life-like toy system 100 is shown, the life-like toy system 100 facilitating two-way communication as part of a game world. The game world interacts with physical toys via apps or applications, and physical toys can also interact with apps, and in particular with their own game variants.

The system 100 includes a physical toy or physical toy object 120 and a game application (App)130 located on a separate or remote computing device 140. Examples of physical toys or physical toy objects 120 include plush or plastic toy objects. Examples of a mobile or remote device 140 include a smartphone or tablet computer or any other type of computing device such as a laptop computer or computer.

Physical toy 120 exists in the gaming application as a game avatar having an appearance that is based on and recognizable as a physical toy; however, the game avatar may have more clothing and accessories to wear, may be fed, may perform activities in the virtual game world. App 130 runs on a computing device paired with the toy. When paired, the physical toy and the game avatar communicate and interact with each other via App 130. This results in a more pleasing gaming experience because the player/user can interact with the physical toy through the game avatar, and in doing so, the physical toy and game avatar combine together to result in a realistic toy.

The physical toy 120 includes a main control unit 125, an input unit 150, a communication control unit 160, and an output unit 170. The main control unit 125 controls the input unit, the communication control unit, and the output unit. In one embodiment, the input component 150 may include a microphone to pick up sound, such as the user's voice. It may also include one or more sensors programmed to detect touch, sound, or external temperature, such as room temperature. The output component may include a speaker and/or a display screen.

The communication control part 160 in the physical toy 120 manages and processes incoming and outgoing data from the physical toy. This includes incoming and outgoing data to and from the player/user and to and from the paired application 130. Data communicated between the physical toy 120 and the paired application 130 may be characterized as a request. The request sent from one side may guarantee (warrant) that some task is completed by the other side — for example, if a request is sent from a game avatar in a paired application to a physical toy, the physical toy may need to complete the task to produce or cause some other reaction or result in the application 130. The opposite will also apply. If a request is sent from the physical toy to a game avatar in the paired application, the game avatar in the paired application may need to complete a task (via the user playing the game).

The communication control component 160 includes a processor to analyze the data and process the data appropriately. As alluded to above, may be made via techniques such asThe wireless communication protocol of (1) transmits data. The physical toy 120 and the game application 130 on the computing device 140 may be viaConnected so that user input from the physical toy 120 may be readily transmitted in an appropriate format and received viaThe device 145 is received by the computing device 140. For example, a user may touch the physical toy 120 and the touch is detected by at least one sensor embedded in the physical toy 120. The touch data is processed and transmitted to the account of the user in the paired application 130. The paired application 130 processes the data via processor 190 and the results can be displayed on a computing device screen (display 180). The results may also be communicated back to the physical toy 120 and then provided as output from the physical toy, such as in the form of a sound or speech, through speakers (output components 170) built into the physical toy 120.

Referring now to fig. 2, there is an exemplary image of a physical toy 200 that may be used in the realistic toy system 100 as discussed in fig. 1. Physical toy 200 resembles a plush toy or stuffed animal; however, it should be understood that any type of toy including figurines (figurines) or other objects may be used in the realistic toy system 100 operating as described herein. Physical toy 200 may be made of any material, such as textiles, ceramics, silicon, and/or plastic, or any combination thereof.

Also shown in FIG. 2 is a master control unit 210, the master control unit 210 including one or more processors or microprocessors that manage or regulate at least one touch sensor 220 and optional LED lights 230,LE 240, a sound chip or microprocessor 250 and a battery 260. The master control unit manages requests made in both directions between the physical toy and the App 130. Sound chip 250 is connected to speaker 270 through an optional volume control device built into toy 200, and battery 260 is connected to power switch 280 and USB charging port 290. Further, one or more touch sensors 220 can be positioned anywhere on the toy, such as the head, back, and/or paws, to allow direct communication between the physical toy and the App/game avatar.

The master control unit 210 also includes a Flash RAM for storing physical toy data, a request queue, and a unique identifier so that the App 130 synchronizes with the selected physical toy. The sound chip 250 includes a sound RAM/ROM for storing a plurality of sampled sound effects that may be triggered by the physical toy 120 or App 130.

The communication allows two-way communication between the physical toy 120 and the App 130 running on the computing device 140. The physical toy also has a device 140A paired button. The pairing button may be the same or different button as the power on/off button. Alternatively, pairing can be done in software without buttons.

Physical toy 120 may be paired with any Bluetooth-enabled device. Once paired, toy 120 may automatically connect to the device when it is within range. The physical toy 120 has three main modes: unpaired, paired but App closed and paired and App open.

When App 130 is turned on and physical toy 120 is paired with a device, App 130 will recognize that physical toy 120 is paired. In one embodiment, if App 130 is on and the physical toy is paired with a device, but the player has not launched the physical toy — that is, no data is sent from toy 120 to App 130, App 130 may ask the player whether the player wants to play with physical toy 120.

If the player has multiple physical toys assigned to the user account, the App 130 may ask the player if he would like to switch to a different physical toy 120. If App 130 is turned off and then later turned on, App 130 may be programmed to turn on as an active toy in App 130 with the most recently played physical toy.

When App 130 is turned on and the physical toys are paired, the system will send a command to the active physical toy to trigger an output event such as a sound in the physical toy — for example, when any of the following events occur:

initiating a toy request

Completion of the toy request

Win game

Lose game

Feeding game avatar

Equipment to change the game avatar

Game avatar is mounted to bed (optional)

The sounds on the physical toy include:

awake-a neutral sound may be used when the pet becomes active and/or for a general request

Enjoyable-3-5 changes

2-3 changes in the Heart injury

Feed-2-3 changes

Starved-for feeding requests

Naughty-for game requests

Other events may also occur to trigger output events in the form of sounds representing various emotions/reactions in the physical toy. Other sounds besides those listed are also contemplated. Further, when paired and App 130 turns on, more specific sounds, such as sleep, can be streamed directly from App 130 to the speakers of the physical toy. Alternatively, if the active physical toy has a sensor, App 130 will recognize when the sensor is touched/used or otherwise activated. App 130 and the game avatar may be responsive to data received from the sensors.

App 130 may also use sensors in the physical toy as inputs to the game. In one embodiment, the game avatar in App 130 may feel depressed by saying "i am feeling. Can you be given a hug? "want some attention. App 130 transmits this as a request to physical toy 120, and sensors embedded in physical toy 120 detect touch data corresponding to the hug. This touch data is communicated back to App 130, and the gaming avatar may respond, such as by awarding a reward, a score (point), and/or providing some other type of response (e.g., a visual response or an audible response). In another embodiment, the physical toy may say or express "i hungry. Can i eat a snack? ". This request is communicated to App 130, where the player may feed the game avatar. Once fed, App 130 communicates to the physical toy that the request is complete and that the physical toy can respond with an appropriate sound.

App 130 may send the current happiness/hunger/energy statistics of the game avatar over a one minute "heartbeat" to the physical toy to be stored in the Flash RAM of the toy.

When playing a paired physical toy with the App off or without communication, the master control unit 210 determines when a request will be made to the App. The request is selected from options available in a request queue of Flash RAM. Physical toy 200 may play the requested sound based on the type of request selected. The master control unit 210 stores the request in a request queue until the App is turned on or begins communicating with the physical toy 200.

As previously described, if the active (paired) physical toy is not an active avatar in the App when the App is turned on, the App will automatically switch to the correct avatar in the App. The unique identifier in the active physical toy is communicated to the App and the corresponding game avatar in the App account is wagered into game. The corresponding game avatar in App is an almost identical, if not identical, avatar of the physical toy to produce the effect that physical toy 200 has a presence in the game or in App. The physical toy can tell the App which request from the queue it wants to trigger. If the request is ignored, after a short amount of time, such as 3 minutes (the length of the request), the request will be removed from the request queue in the physical toy. If there are no requests available in the queue, the toy will not make any requests.

App 130 may also send one or more avatar requests to the Flash RAM of the physical toy to be used as a "queue" for requests that may be accessed when the App is not open. If the physical toy is not paired with a device, an interactive game between the physical toy and the avatar in the App is not available. However, the physical toy may be played and the appropriate input data collected by its sensors may be processed and stored and then later transmitted to the App when the physical toy is paired with the App. Additionally, or alternatively, if the physical toy has a sensor, the sensor may directly trigger a sound in the toy when it is pet, hugged, etc. The master control unit may also recognize that the physical toy is not in use and may occasionally make an annoying sound or other alerting sound that merely encourages the child to embrace/love the toy. Alternatively, the same functionality of a paired physical toy with App off may be available when the physical toy is not paired. The physical toy will simply wait for both the bluetooth connection to be established and the App to be turned on.

With respect to power usage, physical toys have several power saving features to avoid battery drain (Drainage). For example, the physical toy may be manually turned off, such as by pressing the pairing/power button for 5 seconds. There is also a method for automatically turning off a physical toy or possibly entering a "sleep" mode when the toy is not actively played and/or when the App is turned on and available for pairing, is not paired with the App, e.g. for a specified amount of time, such as 5 minutes.

Turning now to fig. 3, there is a schematic flow diagram 300 illustrating a life-like toy system in operation, such as system 100 discussed in fig. 1. According to diagram 300, physical toy 310 is shown viaThe technology connects to an App located on the mobile computing device. The App is a game as follows: where the player has established an account and has registered a code associated with the physical toy 310 in the account. In a gaming App, registered physical toys appear nearly identical in the game — referred to herein as a game avatar. A game avatar is a character in a game App with which a player interacts, in part, via game play or activities in game play, and in part, via a physical toy. In a gaming App, a player may perform various actions, such as, but not limited to, playing a game or various activities in a game, feeding a game avatar, placing a game avatar in bed or asleep, winning a prize for a game avatar, completing a task or challenge toBenefit game avatars or overall conditions (over positions) in the game, purchase gifts or other items available for purchase in the game App, and the like. Information or data relating to any of these events may be communicated to the paired physical toy. The main control unit processes the data and selects a predetermined sound effect as an appropriate response to such data, and then the sound chip plays the sound that the player/user can hear via the built-in speakers of the physical toy. For example, there may be sound effects designated as part of a table for various reactions or sensations, providing separate sound effects for different emotions or states, such as excited, hungry, tired, sad, lacking life necessities (needy), awake, or confused. The physical toy expresses or performs the sensation or reaction caused by the game avatar, thereby making it lifelike to the player/user.

In fig. 4, an exemplary schematic 400 of a life-like toy system 100 in operation is shown. Physical toy 410 viaConnect to the opened App and send a request to the App. The server supporting the App processes the request to determine the specific details of the request and displays the request on the App's screen-such as "Karl, can you address me in a new shift? (Karl, can you give me a new shirt. App displays two options for the player to choose from — OK (available) or Not now. The player/user completes the request by selecting "OK", and then the screen displays "Do you like it me? (do you like it. In response to a question on the screen, the physical toy outputs a happy or excited sound from its speakers. Multiple sounds may be triggered to exhibit "happy" or "excited" or any other feeling/emotion.

The App also updates the game avatar account to reflect the rewards and mood indicators, as well as any other game avatar statistics that may exist, such as hunger status, boring status, energy level, or social level (whether the game avatar wants to participate in social games with other active players or with other physical toys that may be paired to the same account in the App). In addition, the request queue is also updated to show that the request is completed and/or any content associated with it. Indeed, for example, an account in an App may include multiple game avatars, where each of the game avatars corresponds to a different physical toy. For example, the dashboard view may show the current status of each game avatar registered to the user's account.

Those multiple game avatars (registered to the same user account) may also interact with each other if the user has multiple physical toys and corresponding game avatars registered in the App. The physical toys will be triggered by the respective game avatars as described above in the figures.

The App may also support interaction or game play between more than one user. In one embodiment, multiple game avatars registered to different user accounts may engage in activities or game play in the App. Different users and their respective accounts may be linked or otherwise connected via the App, and their respective game avatars may interact with each other in the App. The corresponding physical toys will be triggered by their respective game avatars from the App, as depicted in the figures. In another embodiment, the first user may use his/her game avatar to send a request to the second user's game avatar in the App. The request is then communicated from the second user's playing avatar to the second user's physical toy. The physical toy completes the request via the second user; and this completed request (or response data) is communicated back to the second user's gaming avatar. The response data is then communicated to the first user's playing avatar and then to the first user's physical toy.

As another example, different game avatars may be required before they can play with each other. For example, if at least two physical toys are paired to an App and both corresponding game avatars have a sufficiently high social level or other status indicator indicating that they want to play together or are being played together, at least one of them may express that the two game avatars want to interact with each other. This may be expressed on a screen in the App and then also communicated to one or more requests made from the App to the physical toy, and the physical toy may play some sound to catch the player/user's attention and get a response from the player/user.

Referring now to fig. 5, another exemplary schematic flow chart is shown to illustrate the operation of physical toy 510. The user may play physical toy 510 via the App, and physical toy 510 may also include an internal timer. The internal timer may track whether a response is received in response to a request made in the App. The request may be one of various categories to be satisfied in the App, such as playing a game (in App), feeding me, needing to sleep, love me, grooming me, bathing me, shopping me, etc. For each request or each request category, the physical toy may output one or more sound effects appropriate for the type of request made. The sound effect may be repeated, such as every 30 seconds, until the request is acknowledged or satisfied, or until some other threshold amount of time is satisfied, such as when 3 minutes have elapsed since the request was made (log) without responding to the request. The threshold time may be programmed to determine to "ignore" the request. If the response is deemed to be ignored, the ignore counter may be incremented by 1 and the internal timer may be reset. When the ignore counter reaches 5 ignores or some other determined number of ignorions, the physical toy may be muted or put to sleep until the physical toy is paired with the App again. The battery power is conserved by muting the physical toy or putting the physical toy to sleep.