The document summarizes website usage statistics from a single day (February 16, 2011) for the site diycyborg.ning.com. It shows that the site had 545 total visits from 60 countries, with the top three countries being the United States (109 visits), Italy (84 visits), and Spain (36 visits). On average, visitors viewed 5.4 pages per visit and spent 5 minutes and 27 seconds on the site. Nearly half of visits were from new visitors and over a third resulted in visitors bouncing without viewing additional pages.
The document summarizes website usage statistics from a single day (February 16, 2011) for the site diycyborg.ning.com. It shows that the site had 545 total visits from 60 countries, with the top three countries being the United States (109 visits), Italy (84 visits), and Spain (36 visits). On average, visitors viewed 5.4 pages per visit and spent 5 minutes and 27 seconds on the site. Nearly half of visits were from new visitors and over a third resulted in visitors bouncing without viewing additional pages.
Laser navigation 2016 technology overview short finalRoberto Navoni
Laser Navigation has developed a comprehensive drone technology platform over many years of research and development. They created the popular ArduCopter autopilot project in 2009 and have since developed their own proprietary flight control and navigation technologies. Their full-stack platform includes autopilots, ground control stations, remote controllers, gimbals, sensors and more. They have a large team of engineers actively working on new technologies like indoor localization, obstacle avoidance and autonomous features.
Manuale in Italiano della scheda Autopilota VR Brain 4.x per maggiori informazioni sulle ultime revisioni disponibili del documento il thread di riferimento e' :
http://www.virtualrobotix.com/forum/topics/manuale-vr-brain-4-x-in-italiano?xg_source=activity
Schematics of circuit for connect a radio module to PDA where is installed VR Radio RC
For more info check here : https://play.google.com/store/apps/details?id=com.laser.VrRadioRC&feature=more_from_developer#?t=W251bGwsMSwxLDEwMiwiY29tLmxhc2VyLlZyUmFkaW9SQyJd
The document is a block diagram showing the connections between various electrical components. It includes labels for connectors, power supplies, microcontrollers and an inertial measurement unit. There are also labels for objects like screws and ports for connections.
This document provides specifications for the connectors on the LN_MULTIPILOT32 laser navigation system. It details the connections for LEDs, PWM and I2C inputs and outputs, CAN bus, microSD card, and USB. The system has two revisions, with the connectors and most pin assignments remaining the same between revisions 1.0 and 3.0.
This document contains a block diagram of an electronic circuit board. It includes 4 sheets that show the layout and connections between various components. The components include sensors, microcontrollers, connectors, and other electrical parts. The diagrams are labeled with names of the components and their pin connections.
This document provides specifications for the connectors used on the LN_MULTIPILOT32 device, including pin assignments and meanings for LEDs, PWM and analog inputs and outputs, I2C interfaces, SPI interfaces, and more. Pin assignments are given for connectors related to functions like motor control, sensor inputs, analog measurement, and communications interfaces. The document is a revision from June 2011 and was authored by Diego Ambroggi.
The document summarizes the Multipilot 32, a flight controller board developed by Laser Navigation. It has an ARM Cortex-M3 processor, supports various sensors and protocols, and comes with firmware and libraries for drone navigation and control. The board works with open source autopilot projects and is supported by a developer community through forums and professional support partners.
This document provides specifications for the STM32F103x microcontroller series, which features an ARM Cortex-M3 CPU, up to 512KB flash memory, USB, CAN, timers, analog-to-digital converters, and communication interfaces. It includes details on the microcontroller's pin configurations, memory mapping, electrical characteristics under different operating conditions, and package options. The STM32F103x series offers performance, low power consumption, and a wide range of connectivity options for embedded applications.
The document is a schematic diagram for a multipilot block. It contains 4 sheets showing the connections between various components. Sheet 1 shows the overall block diagram layout. Sheet 2 shows the connector labels. Sheet 3 provides more detail on the pin connections of an microcontroller. Sheet 4 labels off-board connections including power, communications interfaces and sensors.
This document provides specifications for the connectors on the LN_MULTIPILOT32 board, including the meaning, connector, and microcontroller pin assignments for PWM inputs and outputs, I2C interfaces, SPI interfaces like the microSD card, analog sensors, data flash, and various communication ports. It describes the functions of over 50 connectors in total.
This document is a reference manual that provides complete information on how to use the memory and peripherals of several STM32 microcontroller models. It describes the microcontrollers' system architecture, memory organization and map, power management features, low power modes, and clock control unit. The manual is intended for application developers to help them program and interface with the microcontrollers.
- The document describes the Multipilot 32, a flight controller board developed by LASER NAVIGATION.
- It has an ARM Cortex-M3 processor, 512KB flash memory, 64KB RAM, and interfaces for sensors, radios, motors and more.
- The board runs ChibiOS or VROS and supports projects like OpenPilot, AutoPilot and Paparazzi. It is compatible with many sensors, radios and brushless ESC/servos.
- Developers can use IDEs like CooCox, Eclipse, or commercial options, with libraries for sensor control, radio control and more.
- The Multipilot 32 is available for pre-
Laser navigation 2016 technology overview short finalRoberto Navoni
Laser Navigation has developed a comprehensive drone technology platform over many years of research and development. They created the popular ArduCopter autopilot project in 2009 and have since developed their own proprietary flight control and navigation technologies. Their full-stack platform includes autopilots, ground control stations, remote controllers, gimbals, sensors and more. They have a large team of engineers actively working on new technologies like indoor localization, obstacle avoidance and autonomous features.
Manuale in Italiano della scheda Autopilota VR Brain 4.x per maggiori informazioni sulle ultime revisioni disponibili del documento il thread di riferimento e' :
http://www.virtualrobotix.com/forum/topics/manuale-vr-brain-4-x-in-italiano?xg_source=activity
Schematics of circuit for connect a radio module to PDA where is installed VR Radio RC
For more info check here : https://play.google.com/store/apps/details?id=com.laser.VrRadioRC&feature=more_from_developer#?t=W251bGwsMSwxLDEwMiwiY29tLmxhc2VyLlZyUmFkaW9SQyJd
The document is a block diagram showing the connections between various electrical components. It includes labels for connectors, power supplies, microcontrollers and an inertial measurement unit. There are also labels for objects like screws and ports for connections.
This document provides specifications for the connectors on the LN_MULTIPILOT32 laser navigation system. It details the connections for LEDs, PWM and I2C inputs and outputs, CAN bus, microSD card, and USB. The system has two revisions, with the connectors and most pin assignments remaining the same between revisions 1.0 and 3.0.
This document contains a block diagram of an electronic circuit board. It includes 4 sheets that show the layout and connections between various components. The components include sensors, microcontrollers, connectors, and other electrical parts. The diagrams are labeled with names of the components and their pin connections.
This document provides specifications for the connectors used on the LN_MULTIPILOT32 device, including pin assignments and meanings for LEDs, PWM and analog inputs and outputs, I2C interfaces, SPI interfaces, and more. Pin assignments are given for connectors related to functions like motor control, sensor inputs, analog measurement, and communications interfaces. The document is a revision from June 2011 and was authored by Diego Ambroggi.
The document summarizes the Multipilot 32, a flight controller board developed by Laser Navigation. It has an ARM Cortex-M3 processor, supports various sensors and protocols, and comes with firmware and libraries for drone navigation and control. The board works with open source autopilot projects and is supported by a developer community through forums and professional support partners.
This document provides specifications for the STM32F103x microcontroller series, which features an ARM Cortex-M3 CPU, up to 512KB flash memory, USB, CAN, timers, analog-to-digital converters, and communication interfaces. It includes details on the microcontroller's pin configurations, memory mapping, electrical characteristics under different operating conditions, and package options. The STM32F103x series offers performance, low power consumption, and a wide range of connectivity options for embedded applications.
The document is a schematic diagram for a multipilot block. It contains 4 sheets showing the connections between various components. Sheet 1 shows the overall block diagram layout. Sheet 2 shows the connector labels. Sheet 3 provides more detail on the pin connections of an microcontroller. Sheet 4 labels off-board connections including power, communications interfaces and sensors.
This document provides specifications for the connectors on the LN_MULTIPILOT32 board, including the meaning, connector, and microcontroller pin assignments for PWM inputs and outputs, I2C interfaces, SPI interfaces like the microSD card, analog sensors, data flash, and various communication ports. It describes the functions of over 50 connectors in total.
This document is a reference manual that provides complete information on how to use the memory and peripherals of several STM32 microcontroller models. It describes the microcontrollers' system architecture, memory organization and map, power management features, low power modes, and clock control unit. The manual is intended for application developers to help them program and interface with the microcontrollers.
- The document describes the Multipilot 32, a flight controller board developed by LASER NAVIGATION.
- It has an ARM Cortex-M3 processor, 512KB flash memory, 64KB RAM, and interfaces for sensors, radios, motors and more.
- The board runs ChibiOS or VROS and supports projects like OpenPilot, AutoPilot and Paparazzi. It is compatible with many sensors, radios and brushless ESC/servos.
- Developers can use IDEs like CooCox, Eclipse, or commercial options, with libraries for sensor control, radio control and more.
- The Multipilot 32 is available for pre-