DOCSLIB.ORG

Cell Phone Codec

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Cell Phone Codec Cell phone codec click here to download In terms of the GSM family, the narrowband codec of choice is called AMR ( Adaptive Multi-Rate) using around 12–14 kbps, whilst for LTE and parts of 3G, there. The CDMA and GSM cell phone worlds developed different sets of codecs. GSM carriers, such as AT&T and T-Mobile, went with the AMR. Codecs are devices or software that converts an analog signal to a digital one. Learn more about the different types and what codecs are mostly used today!. Full Rate was the first digital speech coding standard used in the GSM digital mobile phone system. The bit rate of the codec is 13 kbit/s, or bits/audio. Wideband audio, also known as wideband voice or HD voice, is high definition voice quality for In addition, some wideband codecs may use a higher audio bit depth of bits to encode samples, also resulting in much better voice quality. Speech coding is an application of data compression of digital audio signals containing speech The two most important applications of speech coding are mobile telephony and voice over IP. In , G codec, which has a scalable structure, was standardized by ITU-T. The input sampling rate is 16 kHz. Emerging technologies that enhance voice and stifle background noise For the latest generation of cellular, LTE, a new voice codec is being. Here is a list of the most common codecs used in VoIP for voice encoding and compression, VoIP equipment wireless LAN router and phone. Essential details of GSM audio / voice codecs / vocoders & their technology: of the audio over a limited bit rate, error-prone wireless transmission channel. Companies like LG and HTC are stepping up and putting specialized audio components into their phones, Sony is still pushing things forward. This is the format in which your cell phone will save video. This codec, developed by Actimagine, is based on its work with mobile gaming. Regrettably the sound quality when using a cellular phone leaves much to be desired. So we decided So we purchased a set of Tieline codecs. Even though it. If you use a GSM module or plug a GSM cell-phone into the serial port of your codec it will program it to operate in GSM CSD mode by default. If you wish to use . Can't open file, unsupported audio codec or unsupported audio than downloading or transferring a video onto your Android phone, only to. GSM Mobile Cell Phone with Digital TBU. 1U 19inch Broadcasters' Mobile Phone and Digital TBU GSM Broadcast Phone With G/G ISDN Codecs. Over the years, people have created and optimized codecs for the specific environments they were going to be used in, so the cellular community built codecs. Although we are missing young students' interests in cell phones due to “too Let's review what happened on voice codec for mobile applications. The analog. For example, today's cell phone utilizes highly optimized systems on a chip, including possibly accelerator hardware for audio codecs, echo cancellation and . For example, today's cell phone utilizes highly optimized systems on a chip, including possibly accelerator hardware for audio codecs, echo cancellation, and . Why, exactly, do cell-phone calls often sound crappy? telephone networks in mind, cell phones were made with a narrowband codec. “Some voice codecs define not only a speech compression algorithm but also a transmitting the background noise detected by the cell phone's microphone. circuits and devices in a cell phone do many things with electric signals. One example is the system known as a codec. It may have one or more chips. The name. See, the cellphone networks didn't ever beat out landlines for .. Even Skype's vaunted voice codec tops off at 40kbps, going as low as 6kbps. Therefore, anyone selecting voice codecs for these applications should familiarize The need to support multiple codecs can also be an issue as cell phones. be effective in banishing the plague of “cellphone sound” in your on-air product . Comrex ACCESS and BRIC-Link codecs implement the VoIP protocol known. Take our crash-course in wireless audio codecs, bitrate, standards, and LDAC was only available on Sony's Xperia phones—so the codec. Finally, with wireless speakers becoming increasingly popular and If you're looking for phones that support all the codecs, the Pixel 2 XL. Bluetooth headsets have much lower processing power and much smaller batteries than cell phones. The complexity of cellular codecs, typically in the range of. G is a speech codec that compresses voice audio in 30 ms frames. G. is a Low delay speech coder hence including satellite, cellular, and video. codecs and protocols, transcoding voice calls between various networks and end -point . Wireless phones can typically support several different voice codecs. Cell phones are to be completely banned in schools across France, the government has announced. The blanket ban will start in Sept. , the next school. Testing EVS Codec Performance: An Independent Study on multiple pre- commercial wireless devices. Man talking on a cell phone. New Bluetooth audio products with aptX HD and LDAC codecs are the Let's face it, sound quality is not usually a priority for cell- phone. sipgate supports the following codecs: Codec Codec Bitrate [kbit/s] Ethernet Bitrate [kbit/s] G 64 Wondering what VoIP codec you should use for great voice quality when "is it less than, equal to or better than an excellent cell phone call?". GSM (Global System for Mobile communications) is a cellular phone system standard popular outside the USA. GSM includes a codec, often just referred to as. I remember fragments of an explanation that the GSM codec (and similar ones) is essentially a vocoder, meaning you're hearing a. Keywords: cell phone, codec, audio, MAX, MAX, class D, DirectDrive, multiple sample rates, digital audio, GPRS, GSM, MP3, application processor. Light video codec from Asia eyes cell phones, PDAs. TOKYO — A proprietary video compression scheme with backing from Japan, South Korea and China is. Fraunhofer researchers have helped develop a new codec to banish this ( 3GPP), the international body that develops standards for mobile. Digital Cameras. • Smart Cellular Phones. 3 Description. The TLVAIC34 device is a low-power four- channel audio codec with four- channel headphone. CODEC chip (or other chips) being coupled into the analog circuitry, and noise induced from nearby digital or as is done in cell phones, cordless phones, etc. PDF | As modern wireless access networks are moving towards packet based wireless access one may expect mobile cellular telephony to be. The Sound Science of Audio Codecs her belt not know about a codec that was invented before cell phones, the World Wide Web, and PCs?. I have the LG enV cellphone with Verizon service in the US. I can hear fine when I am talking to someone, but as soon as I get hold music, the. The Adaptive Multi-Rate (AMR) codec was standardized for the Global System over the cell phone network utilizing this particular codec. 1. The audio codec may be implemented in a variety of wireless transceivers, such as cell phones, to offer voice, data and/or music functions. The codec also has. (I should note that cell phone and video game footage are NOT suitable and it looks like the videos are recorded using codec HEIF/HEVC. This document explains voice codec bandwidth calculations and features to modify or conserve bandwidth when Voice over IP (VoIP) is used. After Updating to latest version () when I open any video I have this message: Unable to open Cell codec. Error 0x I don't know how fix it. HD Voice with OPUS Codec is enabled by default on RingCentral Phone and RingCentral Phone for Mobile. It provides a better user. Learn more about SBC Codec and which role it plays in VoIP telephony. The SBC codec is primarily used for the wireless Bluetooth standard and is part of the . Learn more about video encoding for android phones with our online informational recourses. Android Supported Video Format/Codec, Supported Video File. ETSI Mobile Codecs technology page. Specification of speech and audio codecs has been one of ETSI's (and 3GPP's) many success stories. Adaptive Multi-Rate AMR Definition - Adaptive Multi-Rate is a codec based For most third-generation (3G) cellular systems it is a mandatory speech codec and is discontinuous transmission and voice activity detection in order to decrease. aptX technology powers the pure, wireless sound behind many of the world's finest smartphones, speakers, soundbars, headphones and tablets. of the art quality codec and frame size); Free of choice of the service provider; SMS to cell phones if the service provider supports it (like the default provider). Introducing the Zephyr Xport: Ordinary Phone Line - Extraordinary Audio . is a voice-only codec - basically a scaled-up version of the codec in mobile phones. www.doorway.ru: WM Audio Codec IC for Samsung Galaxy S6 / Edge: Cell Phones & Accessories. With 3x the data transmitted, LDAC provides an enhanced wireless listening *It achieves the higher sound quality than conventional codec, even in a bad to respond by phone or postal mail, Sony will respond by phone or postal mail. I've just found out about a new Kickstarter for JackPair, a device that enables secure phone calls over a mobile phone. It uses Codec 2. Are their any newer codecs coming? Would their be any web sites describing all voice codecs used in cell phones today? Also, which voice. Check out this thorough explanation of voice codecs. most commonly used for voice are: G, G, G and AMR in cellular phones.
Load more

Recommended publications
  • Data Sheet Rev. D
    SigmaDSP Digital Audio Processor with Flexible Audio Routing Matrix Data Sheet ADAU1442/ADAU1445/ADAU1446 FEATURES I2C and SPI control interfaces Fully programmable audio digital signal processor (DSP) for Standalone operation enhanced sound processing Self-boot from serial EEPROM Features SigmaStudio, a proprietary graphical programming 4-channel, 10-bit auxiliary control ADC tool for the development of custom signal flows Multipurpose pins for digital controls and outputs 172 MHz SigmaDSP core; 3584 instructions per sample at 48 kHz Easy implementation of available third-party algorithms 4k parameter RAM, 8k data RAM On-chip regulator for generating 1.8 V from 3.3 V supply Flexible audio routing matrix (FARM) 100-lead TQFP and LQFP packages 24-channel digital input and output Temperature range: −40°C to +105°C Up to 8 stereo asynchronous sample rate converters APPLICATIONS (from 1:8 up to 7.75:1 ratio and 139 dB DNR) Automotive audio processing Stereo S/PDIF input and output Head units Supports serial and TDM I/O, up to fS = 192 kHz Navigation systems Multichannel byte-addressable TDM serial port Rear-seat entertainment systems Pool of 170 ms digital audio delay (at 48 kHz) DSP amplifiers (sound system amplifiers) Clock oscillator for generating master clock from crystal Commercial audio processing PLL for generating core clock from common audio clocks FUNCTIONAL BLOCK DIAGRAM MP[3:0]/ SPI/I2C* SELFBOOT MP[11:4] ADC[3:0] XTALI XTALO ADAU1442/ ADAU1445/ ADAU1446 2 I C/SPI CONTROL MP/ CLOCK INTERFACE AUX ADC PLL OSCILLATOR CLKOUT 1.8V AND SELF-BOOT REGULATOR PROGRAMMABLE AUDIO SPDIFI S/PDIF S/PDIF SPDIFO RECEIVER PROCESSOR CORE TRANSMITTER FLEXIBLE AUDIO ROUTING MATRIX (FARM) SDATA_IN[8:0] SDATA_OUT[8:0] (24-CHANNEL SERIAL DATA SERIAL DATA (24-CHANNEL DIGITAL AUDIO INPUT PORT UP TO 16 CHANNELS OF OUTPUT PORT DIGITAL AUDIO INPUT) (×9) ASYNCHRONOUS (×9) OUTPUT) SAMPLE RATE CONVERTERS BIT CLOCK† BIT CLOCK† (BCLK) SERIAL CLOCK (BCLK) DOMAINS FRAME CLOCK† (×12) FRAME CLOCK† (LRCLK) (LRCLK) *SPI/I2C = THE ADDR0, CLATCH, SCL/CCLK, SDA/COUT, AND ADDR1/CDATA PINS.
    [Show full text]
  • High Bandwidth Acoustics – Transients/Phase/ and the Human Ear
    Project Number: FB IQP HB10 HIGH BANDWIDTH ACOUSTICS – TRANSIENTS/PHASE/ AND THE HUMAN EAR An Interactive Qualifying Project Submitted to the Faculty of the WORCESTER POLYTECHNIC INSTITUTE In partial fulfillment of the requirements for the Degree of Bachelor of Science By Samir Zutshi 8/26/2010 Approved: Professor Frederick Bianchi, Major Advisor Daniel Foley, Co-Advisor Abstract Life over 20 kHz has been a debate that resides in the audio society today. The research presented in this paper claims and confirms the existence of data over 20 kHz. Through a series of experiments involving various microphone types, sampling rates and six instruments, a short-term Fourier transform was applied to the transient part of a single note of each instrument. The results are graphically shown in spectrum form alongside the wave file for comparison and analysis. As a result, the experiment has given fundamental evidence that may act as a base for many branches of its application and understanding, primarily being the effect of this lost data on the ears and the mind. Table of Contents 1. List of Figures 3 2. Introduction 5 3. Terminology 5 4. Background Information 11 a. Timeline of Digital Audio 12 5. Preparatory 17 6. Theory 17 7. Zero-Degree Phase Shift Environment 17 8. Short Term Fourier Transform 20 9. Experimental Data 22 10. Analysis and Discussion 34 11. Conclusion 36 12. Bibliography 36 Page | 2 List of Figures 1. Amplitude and Phase diagram 6 2. Harmonic Series 8 3. Reduction of continuous to discrete signal 9 4. Analog Signal 9 5. Resulting Sampled Signal 9 6.
    [Show full text]
  • ADOBE AUDITION Iv Contents
    Adobe® Audition® CC Help Legal notices Legal notices For legal notices, see http://help.adobe.com/en_US/legalnotices/index.html. Last updated 11/30/2015 iii Contents Chapter 1: What's New New features summary . .1 Chapter 2: Digital audio fundamentals Understanding sound . .4 Digitizing audio . .6 What is Audition? . .8 Chapter 3: Workspace and setup Viewing, zooming, and navigating audio . .9 Customizing workspaces . 12 Connecting to audio hardware . 19 Customizing and saving application settings . 20 Default keyboard shortcuts . 21 Finding and customizing shortcuts . 23 Chapter 4: Importing, recording, and playing Creating and opening files . 24 Importing with the Files panel . 27 Supported import formats . 28 Extracting audio from CDs . 29 Navigating time and playing audio . 30 Recording audio . 33 Monitoring recording and playback levels . 36 Chapter 5: Editing audio files Generating text-to-speech . 38 Matching loudness across multiple audio files . 41 Displaying audio in the Waveform Editor . 43 Selecting audio . 46 Copying, cutting, pasting, and deleting audio . 50 Visually fading and changing amplitude . 52 Working with markers . 54 Inverting, reversing, and silencing audio . 56 Automating common tasks . 57 Analyzing phase, frequency, and amplitude . 59 Frequency Band Splitter . 62 Undo, redo, and history . 63 Converting sample types . 64 Waveform editing enhancements . 67 Chapter 6: Applying effects Enabling CEP extensions . 68 Effects controls . 68 Last updated 11/30/2015 ADOBE AUDITION iv Contents Applying effects in the Waveform Editor . 72 Applying effects in the Multitrack Editor . 73 Adding third-party plug-ins . 74 Notch Filter effect . 75 Fade and Gain Envelope effects (Waveform Editor only) . 76 Manual Pitch Correction effect (Waveform Editor only) .
    [Show full text]
  • Maintaining Audio Quality in the Broadcast/Netcast Facility
    Maintaining Audio Quality in the Broadcast and Netcast Facility 2019 Edition Robert Orban Greg Ogonowski Orban®, Optimod®, and Opticodec® are registered trademarks. All trademarks are property of their respective companies. © Copyright 1982-2019 Robert Orban and Greg Ogonowski. Rorb Inc., Belmont CA 94002 USA Modulation Index LLC, 1249 S. Diamond Bar Blvd Suite 314, Diamond Bar, CA 91765-4122 USA Phone: +1 909 860 6760; E-Mail: [email protected]; Site: https://www.indexcom.com Table of Contents TABLE OF CONTENTS ............................................................................................................ 3 MAINTAINING AUDIO QUALITY IN THE BROADCAST/NETCAST FACILITY ..................................... 1 Authors’ Note ....................................................................................................................... 1 Preface ......................................................................................................................... 1 Introduction ................................................................................................................ 2 The “Digital Divide” ................................................................................................... 3 Audio Processing: The Final Polish ............................................................................ 3 PART 1: RECORDING MEDIA ................................................................................................. 5 Compact Disc ..............................................................................................................
    [Show full text]
  • Introduction to Multimedia
    1 1 UNIT I INTRODUCTION TO MULTIMEDIA Unit Structure 1.1 Objectives 1.2 Introduction 1.3 What is Multimedia? 1.3.1 Multimedia Presentation and Production 1.3.2 Characteristics of Multimedia Presentation 1.3.2.1 Multiple Media 1.3.2.2 Non-linearity 1.3.3.3 Scope of Interactivity 1.3.3.4 Integrity 1.3.3.5 Digital Representation 1.4 Defining the Scope of Multimedia 1.5 Applications of Multimedia 1.6 Hardware and Software Requirements 1.7 Summary 1.8 Unit End Exercises 1.1 OBJECTIVES After studying this Unit, you will be able to: 1. Define Multimedia 2. Define the scope and applications of multimedia 3. Distinguish between Multimedia Presentation and Production 4. Understand how a multimedia presentation is created 1.2 INTRODUCTION Multimedia refers to content that uses a combination of different content forms. This contrasts with media that use only rudimentary computer displays such as text-only or traditional forms of printed or hand-produced material. Multimedia includes a 2 combination of text, audio, still images, animation, video, or interactivity content forms. Multimedia is usually recorded and played, displayed, or accessed by information content processing devices, such as computerized and electronic devices, but can also be part of a live performance. Multimedia devices are electronic media devices used to store and experience multimedia content. Multimedia is distinguished from mixed media in fine art; by including audio, for example, it has a broader scope. The term "rich media" is synonymous for interactive multimedia. Hypermedia can be considered one particular multimedia application.
    [Show full text]
  • Data Management for Interview and Focus Group Resources in Health
    DATA MANAGEMENT FOR INTERVIEW AND FOCUS GROUP RESOURCES IN HEALTH Catalogue Information: Field Information Title: Data Management for interview and focus group resources in health Document type: Guide Creator: Gareth Knight Keywords: research data management, interviews, focus groups, health data, social science Description: This Guide to Good Practice provides advice to LSHTM researchers managing qualitative data acquired through interviews and focus groups. It outlines questions to be considered at each stage, management approaches that may be taken, and resources where further information may be found. Language: English Rights: Creative Commons Attribution 4.0 International License Version control: Version Date Change description Author 1.0 19 Feb 2018 First version Gareth Knight 1.1 12 June 2018 Added extra transcription tool Feedback This document will be reviewed and updated on an ongoing basis. To suggest enhancements or amendments contact [email protected]. Contents Introduction ............................................................................................................................................................ 3 Audio recordings and data protection ............................................................................................................ 3 1. Prepare for data collection ........................................................................................................................... 4 1.1. Select audio capture device .................................................................................................................
    [Show full text]
  • Digitranslator Guide
    DigiTranslator™ Version 2.0.1 DigiTranslator™ Version 2.0 Legal Notice This guide is copyrighted ©2007 by Digidesign, a division of Avid Technology, Inc. (hereafter “Digidesign”), with all rights reserved. Under copyright laws, this guide may not be duplicated in whole or in part without the written consent of Digidesign. AudioSuite, Avid, Avid Unity, Digidesign, DigiTranslator, Pro Tools, and Pro Tools|HD are either trademarks or registered trademarks of Avid Technology, Inc. in the US and other countries. All other trademarks contained herein are the property of their respective owners. Product features, specifications, system requirements, and availability are subject to change without notice. PN 9320-56457-00 REV A 9/07 Comments or suggestions regarding our documentation? email: [email protected] contents Chapter 1. Introduction . 1 System Requirements . 1 Digidesign Registration . 1 About the Pro Tools Guides . 2 About www.digidesign.com. 3 Chapter 2. Installation and Authorization . 5 Installing DigiTranslator . 5 Authorizing DigiTranslator 2.0 or Higher. 5 Removing DigiTranslator . 7 Chapter 3. AAF, MXF, and OMF Overview . 9 AAF, MXF, and OMF Overview . 9 Metadata . 9 Embedded Media and Linked Media . 12 Audio File Format Compatibility Issues . 14 Chapter 4. Importing AAF and OMF to Pro Tools . 15 Importing AAF or OMF Sequences into Pro Tools . 16 Import Options . 20 Importing AAF/OMF Audio Sequences with Mixed Sample Rates and/or Bit Depth . 24 Importing Audio from AAF Sequences with Unsupported Video Formats . 25 Importing AAF/OMF Sequences Containing Media Mixdowns. 25 Chapter 5. Exporting AAF, MXF, and OMF from Pro Tools . 27 Export Selected Tracks as OMF/AAF Sequences .
    [Show full text]
  • 970 User Guide Table of Contents
    970 Rack Mount Production Audio Recorder User Guide Firmware rev. 2.33 E7556 State Rd. 23 and 33, Reedsburg, WI, USA www.sounddevices.com +1 (608) 524-0625 • Toll-Free: (800) 505-0625 • fax: +1 (608) 524-0655 [email protected] 970 User Guide Table of Contents Introduction 1 Manual Conventions . 1 Panel Descriptions 2 Front Panel . 2 PIX-CADDY 2 and PIX-CADDY CF (Optional) . 5 Rear Panel . 3 Menu and Navigation 6 Main View . 6 File List . 8 LCD . 7 Metadata Screen . 10 Menu . 7 Audio Inputs 13 Analog Inputs . 13 Input Gain Control . 15 Digital Inputs . 13 Input Delay Control . 16 Choosing Audio Sources . 15 Audio Peak Hold Time . 16 Audio Outputs 17 Analog Audio Outputs . .. 17 Headphone Output . 17 Digital Audio Outputs . 17 Ethernet 18 Dante Settings . 18 Recording 21 Sound Devices File Format . 21 Track Arming . 22 File Splitting . 21 File Format (Polyphonic or Monophonic) . 22 False Take . 21 Bit Depth . 23 Playback 24 Cue Markers . 24 Playback Mode . 25 Pre-Roll . 24 Play List . 26 Synchronization and Timecode 27 Sync Reference . 28 Internal Ambient® Lockit: Timecode Generator . 28 Timecode Reader . 28 Timecode Modes . 28 Powering 30 i 970 User Guide External DC Status . 30 PowerSafe . 30 Network Grouping 31 Grouped Settings . 31 Grouped Transport . 32 Pushing Settings to Group . 31 Synchronizing Audio Screen Settings . .. 32 Group Auto-Configuration . 32 External Control 33 RS422 . 33 GPIO (General Purpose Input / Output) . 40 Web Interface - PIXNET . 34 USB Keyboard . 40 Triggering Recording from External Timecode . .. 39 Storage and File Management 41 Storage . 41 File Management . 43 Metadata 47 Setup Management and Firmware Upgrades 52 Saving and Loading Setup Files .
    [Show full text]
  • Ts 103 589 V1.1.1 (2018-06)
    ETSI TS 103 589 V1.1.1 (2018-06) TECHNICAL SPECIFICATION Higher Order Ambisonics (HOA) Transport Format 2 ETSI TS 103 589 V1.1.1 (2018-06) Reference DTS/JTC-047 Keywords audio, broadcasting, TV, UHDTV ETSI 650 Route des Lucioles F-06921 Sophia Antipolis Cedex - FRANCE Tel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16 Siret N° 348 623 562 00017 - NAF 742 C Association à but non lucratif enregistrée à la Sous-Préfecture de Grasse (06) N° 7803/88 Important notice The present document can be downloaded from: http://www.etsi.org/standards-search The present document may be made available in electronic versions and/or in print. The content of any electronic and/or print versions of the present document shall not be modified without the prior written authorization of ETSI. In case of any existing or perceived difference in contents between such versions and/or in print, the only prevailing document is the print of the Portable Document Format (PDF) version kept on a specific network drive within ETSI Secretariat. Users of the present document should be aware that the document may be subject to revision or change of status. Information on the current status of this and other ETSI documents is available at https://portal.etsi.org/TB/ETSIDeliverableStatus.aspx If you find errors in the present document, please send your comment to one of the following services: https://portal.etsi.org/People/CommiteeSupportStaff.aspx Copyright Notification No part may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm except as authorized by written permission of ETSI.
    [Show full text]
  • Digital Audio Best Practices.Pdf
    CDP Digital Audio Working Group Digital Audio Best Practices Version 2.1 October 2006 TABLE OF CONTENTS 1. Introduction 4 1.1 Purpose and Scope 4 1.2 Recommendations Strategy 5 1.3 Updating the Colorado Digitization Program Digital 5 Audio Best Practices 1.4 Acknowledgements 5 1.5 Supporting Documents and Appendices 6 2. Understanding Audio 6 2.1. A Brief Overview 8 2.2. Additional Considerations 3. Collection Development and Management 9 4. Planning and Implementing an Audio Digitizing Project 10 5. Legal, Copyright and Intellectual Property Issues 10 6. Metadata for Digital Audio 10 6.1 Audio Metadata Standards 11 6.2 Audio Metadata in Dublin Core 11 6.2.1 Format 11 6.2.2 Digitization Specifications 11 6.3 CDP Dublin Core Metadata Best Practices 12 2 7. Guidelines for Creating Digital Audio 12 7.1 History of Audio Recording Devices 12 7.2 Modes of Capture 13 7.3 Sample Rate 16 7.4 Bit Depth 16 7.5 Source Types 19 7.6 File Types 20 7.7 Digital Audio Toolbox 21 7.8 Born Digital Recording 26 8. Outsourcing Audio Reformatting 28 9. Quality Control 29 10. Storage and Preservation of Digital Audio 30 11. Delivery of Digital Audio 33 11.1 On-site Delivery 34 11.2 Online Delivery 34 11.3 Podcasting 35 12. Digital Audio Glossary 36 13. Resources 40 14. Appendices Appendix 1. Questions to Ask Before Beginning an 46 Audio Digitizing Project Appendix 2: Legal, Copyright and Intellectual Property Issues 51 for an Audio Digitizing Project Appendix 3: Guidelines for Outsourcing Audio Reformatting 57 3 1.
    [Show full text]
  • Describing a Digital World
    DESCRIBING A DIGITAL WORLD New Media Descriptors in the AAT ITWG: August 2017 Antonio Beecroft, Editor Getty Vocabulary Program AAT Expansion • The AAT is always expanding to accommodate new genres, media, standards, processes, and techniques. • New terms are determined by literary warrant. • New media diverges from traditional media regarding material (and even objecthood), and significantly in dimension. New Media Descriptors • New media works often exist in or use proprietary formats or standards not usually entered in the AAT: Flash Quicktime • Terminology is in flux: often there is no consensus, or terms for a single concept may have many slight variations. • Genre terms are not stabilized, and are coined haphazardly. • Terms are used interchangeably: DPI PPI Measurements, Standards, and Documented Sizes • Measurements per unit for traditional media: value (count) + extent (chain lines) + qualifier (per inch). • CONA Here you would note the count in the Dimensions field of a work record, not as an AAT term, the number of chain lines per inch. This is specific to the item being cataloged, not a standard measurement. Distinctions will be worked out as the hierarchy grows, regarding usage of “dots per inch” “pixels per inch” and units related to the resolution of digital images. Measurements: Traditional Media Title: Mosaic Floor Panel Artist/Maker: Unknown Culture: Roman Place: between Bacoli and Pozzuoli, Italy (Place found) Date: 4th century Medium: Stone tesserae Dimensions: 149.2 × 151.1 × 10.2 cm (58 3/4 ×59 1/2 ×4 in.) Alternate Titles: Bear Hunt (Display Title) Object Type: Mosaic Traditional media <size/dimensions by unit> Title:Gala Contemplating the Mediterranean Sea which at Twenty Meters Becomes the Portrait of Abraham Lincoln‐ Homage to Rothko (Second Version).
    [Show full text]
  • ADOBE AUDITION Iv Contents
    Adobe® Audition® CC Help Legal notices Legal notices For legal notices, see http://help.adobe.com/en_US/legalnotices/index.html. Last updated 12/17/2014 iii Contents Chapter 1: What's New New features summary . .1 Chapter 2: Digital audio fundamentals Understanding sound . .3 Digitizing audio . .4 What is Audition? . .7 Chapter 3: Workspace and setup Viewing, zooming, and navigating audio . .8 Customizing workspaces . 11 Connecting to audio hardware . 17 Customizing and saving application settings . 19 Default keyboard shortcuts . 20 Finding and customizing shortcuts . 21 Chapter 4: Importing, recording, and playing Creating and opening files . 23 Importing with the Files panel . 26 Supported import formats . 27 Extracting audio from CDs . 28 Navigating time and playing audio . 29 Recording audio . 32 Monitoring recording and playback levels . 35 Chapter 5: Editing audio files Displaying audio in the Waveform Editor . 37 Selecting audio . 40 Copying, cutting, pasting, and deleting audio . 44 Visually fading and changing amplitude . 45 Working with markers . 47 Inverting, reversing, and silencing audio . 50 Frequency Band Splitter . 51 Automating common tasks . 52 Undo, redo, and history . 55 Converting sample types . 56 Analyzing phase, frequency, and amplitude . 58 Waveform editing enhancements . 62 Chapter 6: Applying effects Effects controls . 63 Applying effects in the Waveform Editor . 66 Applying effects in the Multitrack Editor . 67 Adding third-party plug-ins . 69 Last updated 12/17/2014 ADOBE AUDITION iv Contents Doppler Shifter effect (Waveform Editor only) . 70 Fade and Gain Envelope effects (Waveform Editor only) . 70 Notch Filter effect . 71 Graphic Phase Shifter effect . 71 Manual Pitch Correction effect (Waveform Editor only) . 72 Chapter 7: Effects reference Amplitude and compression effects .
    [Show full text]