Electronic entertainment systems, such as video games, generally provide user feedback in a number of different forms. For example, many video games are configured to provide feedback to a user input by displaying motion on a display screen and/or by emitting sounds via one or more speakers. Further, a score or other such performance metric may be displayed to give the user feedback regarding how well the user played the game. This may provide a basis for the user to track improvements in skill, and to compare the user's skill to the skill of other players.
However, other entertainment systems may not be configured to offer such feedback to a user. For example, karaoke systems may be configured to prompt a user to sing into a microphone along with a song (for example, via lyrics displayed on a display), and then to amplify and output the user's singing for an audience to hear. In such systems, feedback on the performance may provided by the audience (for example, via cheering or booing), rather than the entertainment system.
Accordingly, various embodiments related to the presentation of visual feedback in an electronic entertainment system are disclosed herein. For example, one disclosed embodiment relates to a method of providing user feedback in an electronic entertainment system. The method comprises inviting an input from a user, receiving a user input via a hand-held remote input device, performing a comparison of the user input received to an expected input, assigning a rating to the user input received based upon the comparison to the expected input, and adjusting light emitted by one or more light sources in the hand-held remote input device based upon the rating.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Furthermore, the claimed subject matter is not limited to implementations that solve any or all disadvantages noted in any part of this disclosure.
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The user input may be compared to the expected input in any suitable manner. For example, where the user input comprises an audio input, comparing the user input to the expected input may comprise comparing one or more musical characteristics of the input, such as a pitch, rhythm, change in intensity (i.e. volume), to those characteristics of the expected input. Further, comparing the user input to the expected input also may comprise using voice recognition techniques to compare the lyrics or language segment sung by the user to an expected language segment. Likewise, where the remote user input device comprises a motion sensor, comparing the user input to an expected input may comprise comparing the output of the motion sensor to an expected output of the motion sensor.
The user input may be compared to the expected input via a local controller located on the hand-held remote input device, or may be sent to an entertainment controller, such as a video game console or karaoke controller console, that executes and controls the electronic interactive entertainment item in use. Where the user input is sent to such an entertainment controller, the input may be sent wirelessly, or via a cable that connects the hand-held remote input device to the entertainment controller.
As mentioned above, any suitable rating may be assigned to the user input based upon the comparison with the expected input. Suitable ratings include any value, values, instructions, etc. capable of causing or instructing the hand-held remote user input device to adjust light emitted by the hand-held remote input device. Further, any suitable factor or combination of factors may be used to assign the rating. For example, in some embodiments, the rating may represent a comparison of a single characteristic of the user input (such as pitch or tone of a vocal input) to a single characteristic of the expected input. In other embodiments, the rating may represent a combination of factors, including but not limited to a combination of characteristics found in a single type of input (e.g. pitch, rhythm, and/or relative intensity of a vocal input), and/or a combination of signals from different inputs (e.g. vocal input combined with gesture input from motion sensor). It will be understood that the rating may be calculated in any suitable manner from these inputs, including but not limited to various statistical methods.
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For example, the microphone may be configured to change the color of emitted light depending upon how closely the user input matches the expected input. In one specific example embodiment, light of one color may represent a good vocal and/or gesture performance while light of another color may represent a poor vocal and/or gesture performance. Depending upon how closely the user's vocal and/or gesture performance matches the expected performance, the light output by the microphone may change, either abruptly or along a continuum, between the two colors, or even between more than two colors, by adjusting a relative intensity a first color and a second color. In another specific example embodiment, the microphone may be configured to output a “light show” as long as the input meets a predefined threshold relative to the expected input. If the user input does not meet the predefined threshold relative to the expected input, the microphone may change the output to a different predefined output or output pattern indicating that the user did not match the performance closely enough. It will be understood that these embodiments are described for the purpose of example, and are not intended to be limiting in any manner.
Next, method 200 comprises sending the input received from the user to an entertainment controller located remotely from the microphone. The entertainment controller may comprise a computing device configured to control the karaoke activity. The input may be sent to the entertainment controller via a wireless link, as indicated at 208, or via a cable connecting the microphone to the entertainment controller, as indicated at 210. The terms “computing device”, “computer” and the like used herein include any device that electronically executes one or more programs, including but not limited to game consoles, personal computers, servers, laptop computers, hand-held devices, microprocessor-based programmable consumer electronics and/or appliances, computer networking devices, etc.
Method 200 next comprises comparing, at 212, the audio input received from the user to an expected audio input. Any suitable characteristic or characteristics of the audio input received from the user may be compared to the expected audio input. For example, as indicated at 214, an instantaneous or averaged pitch of the user input may be compared to an expected instantaneous or averaged pitch. Further, as indicated at 216 at 218 respectively, a rhythm, a timing, or a change in intensity (i.e. crescendo or diminuendo), of the user input may be compared to an expected rhythm, an expected timing, or intensity change. Further, voice recognition techniques may be used to compare a lyrical input received to an expected lyrical input, as indicated at 220. Additionally, where the microphone comprises a motion sensor, a gesture input received may be compared to an expected gesture input, as indicated at 222.
Next, method 200 comprises, at 224, assigning a rating to the audio input based upon the comparison of the input received to the expected input. The rating may comprise any suitable value, values, instructions, etc. that is configured to cause the microphone to adjust emitted light in a manner based upon the comparison of the user input received to the expected input. For example, as described above, the rating may represent a comparison of a single characteristic of the user input (such as pitch or tone of a vocal input) to a single characteristic of the expected input. In other embodiments, the rating may represent a combination of factors, including but not limited to a combination of characteristics found in a single type of input (e.g. pitch, rhythm, and/or relative intensity of a vocal input), and/or a combination of signals from different inputs (e.g. vocal input combined with gesture input from motion sensor). It will be understood that the rating may be calculated in any suitable manner from these inputs, including but not limited to various statistical methods.
Continuing, method 200 next comprises, at 226, sending the rating to the microphone, and then at 228, adjusting light emitted by the microphone based upon the rating. The rating may be sent to the microphone in any suitable manner, including via a wireless connection and/or via a cable connecting the microphone to the entertainment controller. Likewise, light emitted by the microphone may be adjusted in any suitable manner. For example, relative intensities of a first color of light and a second color of light may be adjusted. Alternatively or additionally, any other suitable adjustment may be made. In this manner, a user of the microphone, as well as any audience members, are presented with visual feedback that is related to the relative closeness of the user's audio and/or gesture performance to an expected performance. It will be understood that the specific example of a karaoke system is described for the purpose of example, and that other embodiments are not so limited.
The entertainment controller 302 may be configured to communicate with the microphone 304, for example, to receive a user input sent by the microphone 304 or other user input device, to compare the user input to an expected input, to assign a rating based upon the input, and to send the ratings to the microphone 304. In other embodiments, the microphone 304 may be configured to perform the comparison and rating assignment locally.
To enable the performance of such functions, the entertainment controller 302 may comprise programs or code stored in memory 310 and executable by the processor 312. Generally, programs include routines, objects, components, data structures, and the like that perform particular tasks or implement particular abstract data types. The term “program” as used herein may connote a single program or multiple programs acting in concert, and may be used to denote applications, services, or any other type or class of program.
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The microphone 304 further comprises a plurality of light sources, shown as light source 1, light source 2, and light source n at 332, 334, and 336, respectively. Each light source may comprise any suitable components, including but not limited to light bulbs, LEDs, lasers, as well as various optical components to direct light to outlets located at desired locations on the microphone casing. While shown as having n plural light sources, it will be understood that the microphone 304 may have any suitable number of light sources, including a single light source in some embodiments.
The microphone controller 320 may comprise code stored in memory 322 that is executable by the processor 324 to receive inputs from the various inputs described above, to send such inputs to the entertainment controller, to receive ratings and other communications from the entertainment controller, and to control the output of one or more light sources based upon the rating. Further, as described above, the microphone controller 320 may comprise code executable to compare the user input to the expected input and to assign a rating to the user input based upon this comparison. In such embodiments, it will be understood that the comparison and ratings processes may be performed either fully on the microphone controller 320, or may be shared with the entertainment controller 302 such that the entertainment controller 302 and microphone controller 304 each analyzes a portion of the user input. For example, the entertainment controller 302 may be configured to analyze tone, pitch, rhythm, timing, etc., while the microphone controller 320 may be configured to analyze the volume/intensity of the input. It will be understood that this specific embodiment is described for the purpose of example, and that other embodiments are not so limited.
While described herein in the context of a karaoke system, it will be understood that the concepts disclosed herein may be used in any other suitable environment, including but not limited to video game systems that utilize hand-held remote input devices. It will further be appreciated that the configurations and/or approaches described herein are exemplary in nature, and that these specific embodiments or examples are not to be considered in a limiting sense, because numerous variations are possible. The specific routines or methods described herein may represent one or more of any number of processing strategies such as event-driven, interrupt-driven, multi-tasking, multi-threading, and the like. As such, various acts illustrated may be performed in the sequence illustrated, in parallel, or in some cases omitted. Likewise, the order of any of the above-described processes is not necessarily required to achieve the features and/or results of the embodiments described herein, but is provided for ease of illustration and description. The subject matter of the present disclosure includes all novel and nonobvious combinations and subcombinations of the various processes, systems and configurations, and other features, functions, acts, and/or properties disclosed herein, as well as any and all equivalents thereof.