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Named after the dog that first journeyed into space in 1957, Laika is a mechanical companion as well as an active participant in the astronaut’s life, playing the roles of friend, family member, and even health coach.  Crafted from robust titanium, Laika’s body is built to endure both the harsh conditions of outer space, as well as Earth for walking and jogging alongside its human counterparts, offering emotional support through its advanced mechanical calculations.
 
Equipped with an array of sensors — including depth cameras, thermal imaging cameras, ultrasonic sensors, and slam cameras — Laika is attuned to its surroundings, capable of detecting space, objects, and people. The integration of ECG sensors along its neck also serves a dual purpose, monitoring the astronauts’ health during emotional interactions. Emotional connection is further enhanced through the expressive multi-joint movements, displaying loyalty and love, akin to a real-life pet.
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link : https://www.designboom.com/technology/life-like-ai-robot-dog-laika-space-travelers-jihee-kim-11-19-2023/special character : 
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In the intersection of space travel and robotics, Jihee Kim introduces Laika — a concept design for a life-like, AI robot pet that can interact with humans. Laika has been designed for upcoming space projects such as NASA’s Artemis and Moon to Mars missions set for 2025-2030, envisioned as the ultimate companion for space explorers as it caters to both their physical and emotional well-being while they are away from home. Unlike the aggressive robotic dogs currently available on the market, Jihee Kim has designed Laika with a friendly and organic finish that enables it to connect to its human counterpart on an emotional level when in use while monitoring their health conditions and assisting them in emergencies. Beyond space missions, this approachable design allows Laika to integrate into domestic contexts.
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URL : https://www.designboom.com/technology/life-like-ai-robot-dog-laika-space-travelers-jihee-kim-11-19-2023/

Named after the dog that first journeyed into space in 1957, Laika is a mechanical companion as well as an active participant in the astronaut’s life, playing the roles of friend, family member, and even health coach.  Crafted from robust titanium, Laika’s body is built to endure both the harsh conditions of outer space, as well as Earth for walking and jogging alongside its human counterparts, offering emotional support through its advanced mechanical calculations.
 
Equipped with an array of sensors — including depth cameras, thermal imaging cameras, ultrasonic sensors, and slam cameras — Laika is attuned to its surroundings, capable of detecting space, objects, and people. The integration of ECG sensors along its neck also serves a dual purpose, monitoring the astronauts’ health during emotional interactions. Emotional connection is further enhanced through the expressive multi-joint movements, displaying loyalty and love, akin to a real-life pet.
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link : https://www.designboom.com/technology/life-like-ai-robot-dog-laika-space-travelers-jihee-kim-11-19-2023/special character : 
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What is SDLC?
SDLC is a process followed for a software project, within a software organization. It consists of a detailed plan describing how to develop, maintain, replace and alter or enhance specific software. The life cycle defines a methodology for improving the quality of software and the overall development process.
The following figure is a graphical representation of the various stages of a typical SDLC.

A typical Software Development Life Cycle consists of the following stages −
Stage 1: Planning and Requirement Analysis
Requirement analysis is the most important and fundamental stage in SDLC. It is performed by the senior members of the team with inputs from the customer, the sales department, market surveys and domain experts in the industry. This information is then used to plan the basic project approach and to conduct product feasibility study in the economical, operational and technical areas.
Planning for the quality assurance requirements and identification of the risks associated with the project is also done in the planning stage. The outcome of the technical feasibility study is to define the various technical approaches that can be followed to implement the project successfully with minimum risks.
Stage 2: Defining Requirements
Once the requirement analysis is done the next step is to clearly define and document the product requirements and get them approved from the customer or the market analysts. This is done through an SRS (Software Requirement Specification) document which consists of all the product requirements to be designed and developed during the project life cycle.
Stage 3: Designing the Product Architecture
SRS is the reference for product architects to come out with the best architecture for the product to be developed. Based on the requirements specified in SRS, usually more than one design approach for the product architecture is proposed and documented in a DDS - Design Document Specification.
This DDS is reviewed by all the important stakeholders and based on various parameters as risk assessment, product robustness, design modularity, budget and time constraints, the best design approach is selected for the product.
A design approach clearly defines all the architectural modules of the product along with its communication and data flow representation with the external and third party modules (if any). The internal design of all the modules of the proposed architecture should be clearly defined with the minutest of the details in DDS.
Stage 4: Building or Developing the Product
In this stage of SDLC the actual development starts and the product is built. The programming code is generated as per DDS during this stage. If the design is performed in a detailed and organized manner, code generation can be accomplished without much hassle.
Developers must follow the coding guidelines defined by their organization and programming tools like compilers, interpreters, debuggers, etc. are used to generate the code. Different high level programming languages such as C, C++, Pascal, Java and PHP are used for coding. The programming language is chosen with respect to the type of software being developed.
Stage 5: Testing the Product
This stage is usually a subset of all the stages as in the modern SDLC models, the testing activities are mostly involved in all the stages of SDLC. However, this stage refers to the testing only stage of the product where product defects are reported, tracked, fixed and retested, until the product reaches the quality standards defined in the SRS.
Stage 6: Deployment in the Market and Maintenance
Once the product is tested and ready to be deployed it is released formally in the appropriate market. Sometimes product deployment happens in stages as per the business strategy of that organization. The product may first be released in a limited segment and tested in the real business environment (UAT- User acceptance testing).
Then based on the feedback, the product may be released as it is or with suggested enhancements in the targeting market segment. After the product is released in the market, its maintenance is done for the existing customer base.Video link:Embedded video link:Link: https://projects.invisionapp.com/d/main#/console/20294675/458743820/preview 

There are various software development life cycle models defined and designed which are followed during the software development process. These models are also referred as Software Development Process Models". Each process model follows a Series of steps unique to its type to ensure success in the process of software development.
Following are the most important and popular SDLC models followed in the industry −

Waterfall Model
Iterative Model
Spiral Model
V-Model
Big Bang Model

Other related methodologies are Agile Model, RAD Model, Rapid Application Development and Prototyping Models.Embedded video link:

Fruit and vegetables
Eating at least 400 g, or five portions, of fruit and vegetables per day reduces the risk of NCDs (2) and helps to ensure an adequate daily intake of dietary fibre.
Fruit and vegetable intake can be improved by:

always including vegetables in meals;
eating fresh fruit and raw vegetables as snacks;
eating fresh fruit and vegetables that are in season; and
eating a variety of fruit and vegetables.

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A hemoglobin test measures the amount of hemoglobin in your blood. Hemoglobin is a protein in your red blood cells that carries oxygen to your body's organs and tissues and transports carbon dioxide from your organs and tissues back to your lungs.Video URL:Embedded video link:URL link: https://projects.invisionapp.com/d/main#/console/20294675/458743820/preview Bullets and numbering:

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A hemoglobin test measures the amount of hemoglobin in your blood. Hemoglobin is a protein in your red blood cells that carries oxygen to your body's organs and tissues and transports carbon dioxide from your organs and tissues back to your lungs.Video URL:Embedded video link:URL link: https://projects.invisionapp.com/d/main#/console/20294675/458743820/preview Bullets and numbering:

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