Download Access Grid Audio ARGONNE ) CHICAGO MCS ) FUTURES LAB

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
page
33
page
34
Document related concepts

Audio power wikipedia , lookup

Opto-isolator wikipedia , lookup

Audio crossover wikipedia , lookup

Videocassette recorder wikipedia , lookup

Rectiverter wikipedia , lookup

Radio transmitter design wikipedia , lookup

CD player wikipedia , lookup

Valve RF amplifier wikipedia , lookup

MiniDisc wikipedia , lookup

Sound reinforcement system wikipedia , lookup

Compact disc wikipedia , lookup

Dynamic range compression wikipedia , lookup

Home cinema wikipedia , lookup

Cambridge Audio wikipedia , lookup

PS Audio wikipedia , lookup

Transcript 
Access Grid Audio
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Goals of the audio system
• Natural high quality sound
• Full Duplex
• Hands free – microphones open
• Localization
• Spatialization
• Audio cuing
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Challenges
•
•
•
•
•
Audio quality
Echo
Making it natural
Making the tech vanish
Room design issues
– Surface preparation
– Microphone placement
– Speaker placement
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Echo
• Where does echo come from?
Speaker
Multicast
Network
Audio
Capture
PC
Acoustic
Coupling
Gentner
Microphone
• Methods for eliminating echo
–
–
–
–
–
Gain control
Separation of speaker and microphone
Room treatment
Click-to-talk
Active echo cancellation
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Echo Canceller
• Computes estimate of echo return signal from speaker to
microphone
• Subtracts echo return estimate from microphone audio
• Echo-free audio sent to output.
Incoming
Audio
Speaker
Digital Filter
Outgoing
Audio
MCS ) FUTURESLAB
Sum
Microphone
ARGONNE ) CHICAGO
Audio codecs
• Currently use commodity PC audio cards
– Creative Ensoniq AudioPCI
– Cheap! $30
– Good quality
• Multiple inputs require multiple cards
– And slots
• Future: pro audio cards
–
–
–
–
Midiman Delta: 4 or 6 or 10 I/O
Single PCI slot
Balanced audio connector (no MM100)
Digital I/O available
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
PC audio cards
• Internal mixer
• Level adjustment for output has two controls: PCM level,
main output level
• Input has one or two controls, depending on card
• Different cards may have different mixer semantics
– Rat tries to accommodate this
• Implications
– Possible (easy) to cause local feedback with looped back line in to line
out audio path
– Possible (easy) to cause remote echo with looped back digital output to
digital input path
– Output level depends on two separate settings
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Audio card, type 1
Mic
Vol
Mute
A/D
Input
Local feedback
Line
in
Vol
D/A
Output
Vol
Remote echo
Mute
Input
Mixer
Mute
Mute
Mute
Output
Mixer
Line
out
Mute
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Audio card, type 2
Mic
Vol
Mute
Vol
Local Feedback
Line
in
Vol
Mute
D/A
Output
Vol
Mute
Mute
Line
out
Input
Mixer
Input
Mux
Vol
Mute
c
A/D
Input
Remote echo
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Gentner Architecture
Mic
Mic
Mic
Mic
Gentner Echo Canceller
EC
EC
EC
EC
EC
EC
Reference
Matrix Mixer
Audio PC
MCS ) FUTURESLAB
Speaker
Speaker
ARGONNE ) CHICAGO
Gentner features
• Echo cancellation per-input
– “Distributed echo cancellation”
– Allows more accurate echo return calculation
• Automixing
– Gates microphones off when no input detected
– Ensures very quiet audio from a site when nobody speaking
• Adaptive ambient
– Monitors ambient noise levels to only gate microphones on when
levels increase above ambient
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Gentner vs. External Mixer
• Why can’t we just plug lots of microphones into a mixer, then
plug the mixer into the Gentner?
– The distributed echo cancellation on each input has to work harder and
cannot converge quickly.
– When the microphones are gated "off" by the external mixer, the
AP800 echo canceller has nothing to train to within the room.
– There is no communication between the mixer and the AP800, so the
systems does not take advantage of the Adaptive Ambient feature.
• It may appear to work, but under stress (multiple speakers,
ambient noise) it will fail
• Gentner works best when used as designed
• Money spent on doing it right is money well spent
• Driving non-microphone inputs through an external mixer to
the Gentner is not a problem
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Audio standards
• Balanced audio
–
–
–
–
2 wires for signal, one for ground
Differential signal
Excellent noise rejection
Professional audio gear (Gentner, Midiman audio codec)
• Unbalanced audio
– 1 wire for signal, one for ground
– Little noise rejection
– Consumer-grade audio gear (standard PC audio codec)
• Level matching
– Consumer and pro audio gear have different voltage level standards
• Matchmaker does both balanced/unbalanced and level
conversion
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Installation/Configuration Procedure
• Install hardware
–
–
–
–
–
Microphones
Speakers
Gentner
Matchmaker MM100
Cabling
• Gentner software setup
• Testing with rat and reflector
• Testing on the grid
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Install hardware
• Place microphones
– Saturate space
– Unobtrusive
• Place speakers
• Install Gentner
– Rackmount if possible
• Install MM100
– Rackmount if possible
• Power connections
– Connect Gentner, MM100, speakers, Audio Capture machine to power
line filter
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Cabling: Custom cables
• Gentner to XLR Male. Speakers, MM100
• Gentner to XLR Female. Microphones, MM100
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Cabling
• Custom cable options
– Cut up existing XLR microphone/patch cable
• Hard to strip
• More flexible
– Build new cables from bulk cable
• Need to install XLRs
• Bulk foil-shield cable thinner, better shielding
• Good for long-run fixed installation
– Patch panel
• Terminate Gentner connectors in panel-mount XLR
• Very good option for overall neatness and organization
• Other cables
– RCA to 1/8”. PC to MM100
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Gentner software setup
• AGDP document covers in detail
• Basic procedure
–
–
–
–
Create a site
Set matrix routing (Presets)
Set output levels
Set input levels
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Gentner presets
• Three modes for Gentner operation:
– Network only. Remote audio from Audio Capture machine, local
audio to Audio Capture machine.
– Telco only. Remote audio from Telephone, local audio to Telephone
– Network/Telco bridge. Bridges between local audio, network, and
Telephone.
• Why?
– Support for failover
– Support for telephone-only dialins
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Preset 3: Network only
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Preset 2: Telephone only
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Preset 1: Network / Telephone Bridge
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Set input levels
• For each microphone:
– Recruit a volunteer to read text at a normal speaking voice
– Adjust microphone gain for levels of roughly –10dB, peaking at 0dB
– (Crown PCC-160 input settings to 55dB coarse, -10dB fine)
• Start rat on audio machine. The address does not matter:
rat 224.1.2.3/12000
• Click transmit.
• Adjust rat input level so that normal speech stays within the
green, peaking into the yellow
• Frequent peaks into the red will result in clipping and
distortion
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Audio path
Mic
Mic
Mic
Mic
Gentner Echo Canceller
EC
EC
EC
EC
EC
EC
Reference
Matrix Mixer
Audio PC
MCS ) FUTURESLAB
Speaker
Speaker
ARGONNE ) CHICAGO
Set output levels
• Set all Gentner input A (Audio capture PC) and output C/D
(speaker) settings to 0dB
• Turn speakers all the way down
• Set rat output to midrange
• Start Linux mixer application (aumix or other)
• In rat, enable the test tone (Options -> Audio)
• Monitor Gentner Input A
• Adjust main volume level in mixer until Gentner levels show
0dB
• Adjust speakers for fairly loud level, slightly louder than the
loudest speech expected.
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Audio path
Mic
Mic
Mic
Mic
Gentner Echo Canceller
EC
EC
EC
EC
EC
EC
Reference
Matrix Mixer
Audio PC
MCS ) FUTURESLAB
Speaker
Speaker
ARGONNE ) CHICAGO
Testing with rat and reflector
•
Local loopback test, with delay
– Allows you to hear how local audio sounds remotely
– Tests both input and output path
•
Start reflector on video capture machine:
reflector 20000 20001
•
•
Adjust for 3000 ms delay on ports 20000 and 20001
Start rat on audio capture machine:
rat –allowloopback ag-video/20000
•
•
•
•
Click transmit
Speak normally at each mic
You should hear your voice reflected back after a delay
Adjust levels for good sound.
– Fine tune microphone balance on Gentner
– Overall adjustment with rat controls
– Aim for outgoing audio in the green and yellow range
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Testing on the grid
• Find somebody to test with
– Send mail to a colleague with a node
– Go to the Meadow on the venues mud
•
•
•
•
•
Go to the Test Room
Turn on Transmit, and talk away.
Test network-only
Find a volunteer to call in, and test Telco only
Find volunteers for both network and telephone, and test
Telco bridging.
• Ripe fodder for SC Global Nanocruises
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Operations
• Muting
– Upon entry to a venue, rat
comes up muted. Click the
“talk” button to start transmission.
• Leveling
– Until a space is well shaken out, one may have to tweak the
individual microphone levels
– When well balanced, adjustments to rat mic and speaker levels
should be all that is required
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Problems
• Echo
–
–
–
–
Echo cancellation reference set incorrectly
Echo cancellation disabled on microphones
Microphone too close to speaker
Check for loopback in PC hardware
• Levels too high
– Evidenced by rat levels into the red and clipping and distortion of
audio
– If per-mic levels in Gentner are acceptable, lower rat gains. If still a
problem, lower Gentner Input A gain.
– If mics pick up an excessive amount of room noise, decrease per-mic
gains in gentner.
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Problems
•
Levels too low
– Evidenced by rat gains at the bottom of the green
– Increase rat gain
– If rat gain is all the way up, investigate individual mic gains, and increase
Gentner Input A gain if necessary.
– If a single microphone has sharply lower than expected gain, ensure it is not
routed to the Echo Cancellation Reference output
•
No mic levels
–
–
–
–
–
–
–
–
Check cables: microphone, MM100, Audio Capture PC
Check MM100 power
For condenser microphones, check for phantom power
Check for mic input mute on Gentner
Check for output A mute on Gentner
Ensure transmit is clicked in rat
Ensure audio device in rat is set properly
Ensure input selection (mic/line) in rat is set to line
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Problems
• No speaker levels
–
–
–
–
–
–
Check cables: speakers, MM100, Audio Capture PC
Check for Gentner Input A or Output D muting
Check speaker power and volume level
Ensure rat listen button clicked
Ensure audio device in rat is set properly
Check PC mixer master volume
• Rerun output level setting procedure
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Troubleshooting tips
• Connect headset to Gentner output
– Route individual mics or entire mix to headset
– Good for initial setup to determine quality of audio coming from
microphones
• Listen in to network transmission from another computer with
headset
– Good for monitoring important events
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Good luck!
• Feel free to send questions, comments, suggestions to
[email protected]
MCS ) FUTURESLAB
ARGONNE ) CHICAGO
Related documents
PF Writers` Choice Award, 2015
PF Writers` Choice Award, 2015
Recording Session Request form
Recording Session Request form
Document 63958
Document 63958
here. - Chicago AMA
here. - Chicago AMA
Enhanced Wireless Audio Amplifier
Enhanced Wireless Audio Amplifier
HERE
HERE
VAB-802
VAB-802
Web Demonstration of NVivo 8 – Hosted by QSR International
Web Demonstration of NVivo 8 – Hosted by QSR International
The Chicago Guide to Writing about Numbers, 2nd Edition.
The Chicago Guide to Writing about Numbers, 2nd Edition.
Hum And Noise
Hum And Noise
APSuser_00 - CARS - University of Chicago
APSuser_00 - CARS - University of Chicago
Mains Power And Home Audio
Mains Power And Home Audio
Computer software
Computer software
01_02_03_05b-TransmissionOfInformation
01_02_03_05b-TransmissionOfInformation
Berzin Archives Progress 2/12 to 3/25/2012
Berzin Archives Progress 2/12 to 3/25/2012
Signal Processing Technology for Automotive Systems In Automotive Electronics
Signal Processing Technology for Automotive Systems In Automotive Electronics
Mathematica Modeling project
Mathematica Modeling project
Audiovisual Glossary of Terminology
Audiovisual Glossary of Terminology
Abstract Neuron  { y
Abstract Neuron  { y
Laboratory 1 - Microwave Electronics Laboratory at UCSB
Laboratory 1 - Microwave Electronics Laboratory at UCSB
Gun Violence AmonG School-AGe Youth in chicAGo
Gun Violence AmonG School-AGe Youth in chicAGo
DB2 LUW Automatic Memory Management Configuration
DB2 LUW Automatic Memory Management Configuration