---
Type: desktop-application
ID: gnuradio-grc.desktop
Package: gnuradio
Name:
C: GNU Radio Companion
Summary:
C: Software Defined Radio (SDR) GUI for programming the GNU Radio toolkit.
Description:
pt_BR: >-
<p>GNU Radio fornece blocos de processamento de sinal para implementar rádios via software. Ele pode ser utilizado com
hardware de RF externo de baixo custo que está prontamente disponível para criar rádios definidos por software ou sem
a utilização de hardware em um ambiente de simulação semelhante. GNU Radio é amplamente utilizado em ambientes acadêmico,
comercial e de diversão para apoiar tanto a pesquisa em comunicação sem fio quanto em sistemas de rádio do mundo real.</p>
<p>Aplicativos GNU Radio são escritos principalmente utililizando a linguagem de programação Python, enquanto o caminho
de processamento de sinal de desempenho crítico fornecido é implementado na linguagem de programação C++ utilizando extensões
de ponto flutuante do processador quando estão disponíveis. Portanto, o desenvolvedor é capaz de implementar, em tempo
real, sistemas de rádio de alto rendimento simples de manusear utilizando um ambiente rápido para desenvolvimento de aplicativos
(RAD).</p>
<p>Embora o GNU Radio não seja considerado essencialmente uma ferramenta de simulação, ele suporta o desenvolvimento de
algoritmos de processamento de sinal utilizando dados gerados ou pré-gravados, evitando a necessidade de hardware RF real.</p>
<p>Este pacote contém o gnuradio-companion, uma ferramenta gráfica para criar gráficos de fluxo de sinal e gerar código
de origem de fluxo gráfico. Também estão incluídos uma variedade de ferramentas e programas utilitários.</p>
C: >-
<p>GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost
external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely
used in hobbyist, academic and commercial environments to support both wireless communications research and real-world
radio systems.</p>
<p>GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical
signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer
is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment.</p>
<p>While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded
or generated data, avoiding the need for actual RF hardware.</p>
<p>This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph
source code. Also included are a variety of tools and utility programs.</p>
en: >-
<p>GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost
external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely
used in hobbyist, academic and commercial environments to support both wireless communications research and real-world
radio systems.</p>
<p>GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical
signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer
is able to implement real-time, high-throughput radio systems in a simple-to-use, rapid-application-development environment.</p>
<p>While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded
or generated data, avoiding the need for actual RF hardware.</p>
<p>This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph
source code. Also included are a variety of tools and utility programs.</p>
en_CA: >-
<p>GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost
external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely
used in hobbyist, academic and commercial environments to support both wireless communications research and real- world
radio systems.</p>
<p>GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical
signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer
is able to implement real-time, high- throughput radio systems in a simple-to-use, rapid-application-development environment.</p>
<p>While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded
or generated data, avoiding the need for actual RF hardware.</p>
<p>This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph
source code. Also included are a variety of tools and utility programs.</p>
fr: >-
<p>GNU Radio offre des blocs de traitement du signal pour mettre en œuvre des radios logicielles. Elle peut être utilisée
pour créer des radios logicielles avec du matériel radio externe bon marché et facilement disponible, ou bien sans aucun
matériel dans un environnement de simulation semblable. Elle est largement utilisée en environnement amateur, académique
et commercial pour à la fois la recherche en communications sans fil et la prise en charge de systèmes radio existants.</p>
<p>Les applications GNU Radio ont été originellement été écrites en langage Python, tandis que l'accès fourni aux
traitements du signal de performance critique est implémenté en C++ par l'utilisation d'extensions de processeur
à virgule flottante, si disponibles. Par conséquent, un développeur est en mesure d'implémenter des systèmes radio
à haut débit, temps réel, dans un environnement de développement rapide d'application simple à utiliser.</p>
<p>Bien que n'étant pas à l'origine un outil de simulation, GNU Radio prend en charge le développement d'algorithmes
de traitement du signal en utilisant des données pré-enregistrées ou générées, sans pour cela avoir besoin de matériel
radio.</p>
<p>Ce paquet fournit gnuradio-companion, un outil graphique pour créer des graphes de flux de signaux et générer du code
source de graphe de flux. Sont également inclus divers outils et utilitaires.</p>
en_GB: >-
<p>GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost
external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely
used in hobbyist, academic and commercial environments to support both wireless communications research and real- world
radio systems.</p>
<p>GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical
signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer
is able to implement real-time, high- throughput radio systems in a simple-to-use, rapid-application-development environment.</p>
<p>While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded
or generated data, avoiding the need for actual RF hardware.</p>
<p>This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph
source code. Also included are a variety of tools and utility programs.</p>
it: >-
<p>GNU Radio fornisce blocchi per l'elaborazione del segnale per implementare radio software. Può essere usato con
hardware RF esterno, economico e facile da reperire per creare radio definite via software, oppure senza hardware in un
ambiente di tipo simulazione. È ampiamente usato in ambienti amatoriali, accademici e commerciali per gestire sia la ricerca
su comunicazioni wireless, sia sistemi radio d'uso reale.</p>
<p>Le applicazioni GNU Radio sono scritte principalmente usando il linguaggio di programmazione Python, mentre il percorso
di elaborazione del segnale fornito, che è di importanza critica per le prestazioni, è implementato in C++ usando, dove
possibile, estensioni a virgola mobile del processore. Lo sviluppatore è perciò in grado di implementare sistemi radio
in tempo reale con elevato trasferimento di dati in un ambiente di sviluppo rapido di applicazioni facile da usare.</p>
<p>Benché non sia principalmente uno strumento di simulazione, GNU Radio gestisce lo sviluppo di algoritmi di elaborazione
del segnale usando dati preregistrati o generati, evitando la necessità di un vero hardware RF.</p>
<p>Questo pacchetto contiene gnuradio-companion, uno strumento grafico per creare diagrammi di flusso dei segnali e per
generare codice sorgente per diagrammi di flusso. Sono inclusi anche svariati strumenti e programmi di utilità.</p>
da: >-
<p>GNU Radio tilbyder signalbehandlingsblokke til at implementere programradioer. Programmet kan bruges med hurtigt, tilgængeligt
og billigt eksternt RF-udstyr til at oprette programdefinerede radioer, eller uden udstyr i et simuleringslignende miljø.
Programmet bruges i stor udstrækning af hobbybruger samt akademiske og kommercielle miljøer til at understøtte bade trådløs
kommunikationsforskning og reelle radiosystemer.</p>
<p>GNU Radio-programmer er primært skrevet med brug af programmeringssproget Python, mens den leverede ydelseskritiske
signalbehandlingssti er implementeret i C+++ med brug af kommatalsudvidelser, hvor tilgængelige. Så udvikleren er i stand
til at implementere radiosystemer i realtid og med høj gennemløb i et simpelt miljø med høj hastighed i programudviklingen.</p>
<p>Selv om det ikke primært er et simuleringsværktøj, så understøtter GNU Radio udvikling af algoritmer for signalbehandling
med brug af præoptagelser eller oprettede data, hvilket gør at man kan undvære fysisk RF-udstyr.</p>
<p>Denne pakke indeholder gnuradio-companion, et grafisk værktøj for oprettelse af signalgrafer over forløb og oprettelse
af kildekode for forløbsgrafer. Også inkluderet er en række værktøjer og redskabsprogrammer.</p>
en_AU: >-
<p>GNU Radio provides signal processing blocks to implement software radios. It can be used with readily-available low-cost
external RF hardware to create software-defined radios, or without hardware in a simulation-like environment. It is widely
used in hobbyist, academic and commercial environments to support both wireless communications research and real- world
radio systems.</p>
<p>GNU Radio applications are primarily written using the Python programming language, while the supplied performance-critical
signal processing path is implemented in C++ using processor floating-point extensions, where available. Thus, the developer
is able to implement real-time, high- throughput radio systems in a simple-to-use, rapid-application-development environment.</p>
<p>While not primarily a simulation tool, GNU Radio does support development of signal processing algorithms using pre-recorded
or generated data, avoiding the need for actual RF hardware.</p>
<p>This package contains the gnuradio-companion, a graphical tool for creating signal flow graphs and generating flow-graph
source code. Also included are a variety of tools and utility programs.</p>
Categories:
- Development
- HamRadio
Keywords:
C:
- SDR
- Radio
- HAM
- RF
Icon:
cached:
- name: gnuradio_gnuradio-grc.png
width: 48
height: 48
- name: gnuradio_gnuradio-grc.png
width: 64
height: 64
- name: gnuradio_gnuradio-grc.png
width: 128
height: 128
remote:
- url: g/gn/gnuradio-grc.desktop/51913D50CC87D64992071008EDAF0D0A/icons/128x128/gnuradio_gnuradio-grc.png
width: 128
height: 128
Launchable:
desktop-id:
- gnuradio-grc.desktop
Provides:
mimetypes:
- application/gnuradio-grc
