Huron & SNAP Documentation

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Features Applications Introduction to Equalisation Tools Lake EQ is a graphical equaliser which utilises “drag and drop” parametric filter widgets, combined with massive digital convolution in order to provide precision equalisation of sound signals, with adjustments down to 0.2Hz bandwidth. • Lake Technology’s “optimum phase”, giving the user a control for programming group delay. • The plotting of frequency responses provides visual feedback on the equalisation curve and its accuracy being implemented by the system. • >98dB signal to noise performance. Because of its accuracy Lake EQ can be used in a variety of situations some of these include: • Audio production. • Environment correction. • Forensic audio. • Acoustic research and development. HURON TECHNICAL MANUAL PAGE 253

Page 1: Huron Technical Manual Software ver

Page 5: Copyright © 1995-2003 Lake Technol

Page 9: FCC Declaration (USA only) for Huro

Page 13 and 14: Table of Contents DISCLAIMER.......

Page 15 and 16: TABLE OF CONTENTS FEATURES ........

Page 17 and 18: TABLE OF CONTENTS OPERATION .......

Page 19 and 20: TABLE OF CONTENTS DC BLOCK.........

Page 21 and 22: TABLE OF CONTENTS THE 96KHZ EQ ....

Page 23: Introduction to the Huron Thank you

Page 26 and 27: Features Applications Note: Any ISA

Page 28 and 29: INTRODUCTION TO THE HURON • Optio

Page 30 and 31: Installing New Hardware Components

Page 32 and 33: ↓ To change the ISA memory addres

Page 35 and 36: ↓ Connecting with the patch panel

Page 37 and 38: Huron System Tools Huron Simulation

Page 39 and 40: General Installation ↓ To install

Page 41: Introduction to the System Tools Th

Page 44 and 45: Operation Starting ↓ To start the

Page 46 and 47: Configuration Functions Internal/Ex

Page 48 and 49: Displaying, Hiding and Terminating

Page 50 and 51: Stopping VRack ↓ To exit the VRac

Page 52 and 53: Patching ↓ To connect a pair of p

Page 54 and 55: Tip: Even if two patch points are c

Page 57 and 58: Introduction Features The IO Manage

Page 59 and 60: Adjusting Volumes ↓ To adjust the

Page 61 and 62: ↓ To set a digital output to prof

Page 63: ↓ To close a split window Summary

Page 66 and 67: THE SIMULATION TOOLS InsideTrak, Fa

Page 68 and 69: THE SIMULATION TOOLS • Angle chan

Page 70 and 71: Z THE SIMULATION TOOLS Figure 22

Page 73 and 74: Features Operation Object list Add

Page 75 and 76: For example: if a Source Object (ch

Page 77 and 78: Editing a BinScape Object ↓ To ed

Page 79 and 80: Features Operation The Space Array

Page 81 and 82: Adding an Object to the Space Array

Page 83 and 84: Near Field Adding B-format Input Se

Page 85 and 86: Inserting speakers ↓ To insert a

Page 87: Summary 25 20 15 Number of inputs S

Page 90 and 91: The simulated acoustic spaces used

Page 92 and 93: ↓ To access the Sound Field Filte

Page 94 and 95: Directivity Factor Name d = 0.000 O

Page 96 and 97: Setting Minimum Source Distance ↓

Page 98 and 99: Adding, Inserting, Removing and Edi

Page 100 and 101: DSP Usage Summary THE SIMULATION TO

Page 102 and 103: ↓ To access the Binaural Decoder

Page 104 and 105: Summary THE SIMULATION TOOLS • Th

Page 106 and 107: Starting ↓ To access MultiScape F

Page 108 and 109: Editing a Sound Object ↓ To edit

Page 110 and 111: B-format Decode Mode B-format Mode

Page 112 and 113: Editing Headphone Objects ↓ To ed

Page 114 and 115: Adding Rooms, Deleting Rooms Adding

Page 116 and 117: Summary THE SIMULATION TOOLS • Mu

Page 118 and 119: Starting ↓ To access HeadScape Se

Page 120 and 121: Configuring HeadScape ↓ To config

Page 122 and 123: Summary THE SIMULATION TOOLS • He

Page 124 and 125: Scene (List of Tracks) Track (List

Page 126 and 127: Figure 45 - Scene Properties dialog

Page 128 and 129: Manipulating Tracks ↓ To add a tr

Page 130 and 131: ↓ Exporting a trajectory to a Loc

Page 133: Other Simulation Tools This sub-sec


Page 138 and 139: Locator Commands Loading and Playin

Page 141 and 142: Features Requirements The WavePlaye

Page 143 and 144: Figure 49 — The WavePlayer-2 inte

Page 145 and 146: ↓ Setting the RME Hammerfall as t

Page 147 and 148: Note: The Waveplayer has now been s

Page 149: Summary OTHER SIMULATION TOOLS •


Page 154 and 155: ↓ To select a microphone setting

Page 156 and 157: ↓ To specify the Echo settings

Page 159 and 160: Integration under 32 bit Windows In

Page 161 and 162: Positional Commands Note: The numbe

Page 163 and 164: OTHER SIMULATION TOOLS SNAPGetRooms

Page 165 and 166: MultiScape Commands Parameter Descr

Page 167 and 168: Space Array Commands Parameter Desc

Page 169 and 170: VMixer Commands Parameter Descripti

Page 171 and 172: WavePlayer-2 Commands OTHER SIMULAT

Page 173 and 174: OTHER SIMULATION TOOLS SNAPWP2Pause

Page 175 and 176: OTHER SIMULATION TOOLS SNAPSetWaveH

Page 177 and 178: Command Reference This section desc

Page 179 and 180: WavePlayer Commands OTHER SIMULATIO

Page 181: TCP/IP Commands OTHER SIMULATION TO

Page 185 and 186: Introduction Features Overview of t

Page 187 and 188: Operation Starting and Saving ↓ T

Page 189 and 190: ↓ To add a FIR filter to the Filt

Page 191 and 192: Currently selected patch point icon

Page 193 and 194: Introduction 96kHz Convolver Hardwa

Page 195: Patching the 96kHz Convolver Loadin

Page 198 and 199: Starting Note: If using measure to

Page 200 and 201: Selecting the Output File ↓ To se

Page 202 and 203: Signal Generation via MatLab Script

Page 205 and 206: Introduction 96kHz Measurement Tool

Page 207: Loading the 96kHz Measurement Tool

Page 211 and 212: ; comments ( (dtype [bit16 | bit20

Page 213 and 214: Introduction Operation Starting ↓

Page 215 and 216: Dfilter Windows Interface ↓ To st

Page 217 and 218: Lvec Windows Interface ↓ To start

Page 219: Padvec Windows Interface ↓ To sta

Page 223 and 224: Permute Windows Interface ↓ To st

Page 225 and 226: Wingen Windows Interface ↓ To sta

Page 227 and 228: SigGen Windows Interface ↓ To sta

Page 229 and 230: ↓ To generate a piecewise linear

Page 231 and 232: Vector Arithmetic Windows Interface

Page 233 and 234: Introduction Features Operation ↓

Page 235 and 236: Printing ↓ To print the SIM file

Page 237 and 238: Altering the Axes ↓ To display sa

Page 239: Summary THE ENGINEERING TOOLS • P

Page 242 and 243: Note: In this version of SimScale i

Page 245: Usage Simtowav Simtowav is a comman

Page 248 and 249: Hamming Window Blackman Window Harr

Page 251: Introduction to the Programming Too

Page 255 and 256: THE EQUALISATION TOOLS Menu Item Co

Page 257 and 258: Loading EQ Canvasses ↓ To load a

Page 259 and 260: ↓ To move a Slider ↓ To adjust

Page 261 and 262: ↓ To select a filter length 1. Se

Page 263 and 264: ↓ To zoom into a section of canva

Page 265: ↓ To set Lake EQ to use Optimum P

Page 268 and 269: 96kHz Filters THE EQUALISATION TOOL

Page 271: Other Tools This section introduces

Page 274 and 275: Starting ↓ To access the VMixer

Page 276 and 277: ↓ To adjust the gain of an audio

Page 278 and 279: Controlling VMixer Remotely Summary

Page 280 and 281: ↓ To select which pair of inputs

Page 282 and 283: Altering the XYZ Balance ↓ To alt

Page 285 and 286: Operation Starting ↓ To access I/

Page 287 and 288: Testing Signal to Noise Ratios ↓

Page 289: Huron Technical Reference The Huron

Page 292 and 293: HURON TECHNICAL REFERENCE files tha

Page 295 and 296: Huron Technical Specifications 16 B

Page 297 and 298: Figure 101 — Frequency Response o

Page 299: D-62 Connector Specifications HURON

Page 302 and 303: HURON TECHNICAL REFERENCE • Alway

Page 304 and 305: ↓ To achieve the best results in

Page 306 and 307: Binaural HRTF HURON TECHNICAL REFER

Page 308 and 309: Linear Phase HURON TECHNICAL REFERE

Page 311 and 312: VRack Autostart ↓ To auto-start V

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