2008 |
23 | EE | Margarita Amor,
Montserrat Bóo:
A new architecture for efficient hybrid representation of terrains.
Journal of Systems Architecture - Embedded Systems Design 54(1-2): 145-160 (2008) |
2007 |
22 | EE | Emilio J. Padrón,
Margarita Amor,
Montserrat Bóo,
Ramon Doallo:
A Hierarchical Radiosity Method with Scene Distribution.
PDP 2007: 134-138 |
21 | EE | Montserrat Bóo,
Margarita Amor,
Jürgen Döllner:
Unified Hybrid Terrain Representation Based on Local Convexifications.
GeoInformatica 11(3): 331-357 (2007) |
20 | EE | F. J. Espino,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Hardware support for adaptive tessellation of Bézier surfaces based on local tests.
Journal of Systems Architecture 53(4): 233-250 (2007) |
2006 |
19 | EE | Margarita Amor,
Montserrat Bóo,
Emilio J. Padrón,
Dirk Bartz:
Hardware Oriented Algorithms for Rendering Order-Independent Transparency.
Comput. J. 49(2): 201-210 (2006) |
2005 |
18 | EE | Jose Rodrigo Sanjurjo,
Montserrat Bóo,
Margarita Amor,
Ramon Doallo:
Parallel Global Illumination Method Based on a Non-Uniform Partitioning of the Scene.
PDP 2005: 251-257 |
17 | | F. J. Espino,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Adaptive Tessellation of Bezier Surfaces Based on Displacement Maps.
WSCG (Short Papers) 2005: 29-32 |
16 | EE | Margarita Amor,
Montserrat Bóo,
Wolfgang Straßer,
Johannes Hirche,
Michael C. Doggett:
A Meshing Scheme for Efficient Hardware Implementation of Butterfly Subdivision Using Displacement Mapping.
IEEE Computer Graphics and Applications 25(2): 46-59 (2005) |
15 | EE | Montserrat Bóo,
Margarita Amor:
High-performance architecture for anisotropic filtering.
Journal of Systems Architecture 51(5): 297-314 (2005) |
2004 |
14 | | Ángel del Río,
Margarita Amor,
Montserrat Bóo,
J. M. Pardo:
Visualization of Anatomical Structures Based on Implicit Surfaces and Displacement Mapping.
WSCG (Posters) 2004: 45-48 |
13 | | Paula N. Mallón,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Algorithms and Hardware for Data Compression in Point Rendering Applications.
WSCG (Short Papers) 2004: 173-180 |
2003 |
12 | EE | Margarita Amor,
Montserrat Bóo,
Ángel del Río,
Michael Wand,
Wolfgang Straßer:
A New Algorithm for High-Speed Projection in Point Rendering Applications.
DSD 2003: 338-345 |
11 | EE | F. J. Espino,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Adaptive Tessellation of NURBS Surfaces.
WSCG 2003 |
2002 |
10 | EE | Paula N. Mallón,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Concentric Strips: Algorithms and Architecture for the Compression/Decompression of Triangle Meshes.
3DPVT 2002: 380-383 |
9 | EE | Emilio J. Padrón,
Margarita Amor,
Montserrat Bóo,
Ramon Doallo:
Efficient parallel implementations for surface subdivision.
EGPGV 2002: 113-121 |
8 | EE | Ángel del Río,
Montserrat Bóo,
Margarita Amor,
Javier D. Bruguera:
Hardware Implementation of the Subdivision Loop Algorithm.
EUROMICRO 2002: 189-199 |
7 | EE | Emilio J. Padrón,
Margarita Amor,
Ramon Doallo,
Montserrat Bóo:
A Meshing Scheme for Real Time Surface Subdivision.
WSCG 2002: 349-356 |
2001 |
6 | EE | Paula N. Mallón,
Montserrat Bóo,
Javier D. Bruguera:
Implementation of a NURBS to Bézier Conversor with Constant Latency.
FPL 2001: 213-222 |
2000 |
5 | EE | Paula N. Mallón,
Montserrat Bóo,
Javier D. Bruguera:
Parallel Architecture for Conversion of NURBS Curves to Bézier Curves.
EUROMICRO 2000: 1324-1331 |
1998 |
4 | EE | Roberto R. Osorio,
Montserrat Bóo,
Javier D. Bruguera:
Arithmetic Image Coding/Decoding Architecture Based on a Cache Memory.
EUROMICRO 1998: 10139- |
3 | EE | Elisardo Antelo,
Montserrat Bóo,
Javier D. Bruguera,
Emilio L. Zapata:
A novel design of a two operand normalization circuit.
IEEE Trans. VLSI Syst. 6(1): 173-176 (1998) |
1997 |
2 | EE | Montserrat Bóo,
Francisco Argüello,
Javier D. Bruguera,
Emilio L. Zapata:
Mapping of Trellises Associated with General Encoders onto High-Performance VLSI Architectures.
VLSI Signal Processing 17(1): 57-73 (1997) |
1996 |
1 | EE | Montserrat Bóo,
Francisco Argüello,
Javier D. Bruguera,
Emilio L. Zapata:
High-Speed Viterbi Decoder: An Efficient Scheduling Method to Exploit the Pipelining.
ASAP 1996: 165- |