CREATING NEW TECHNOLOGY
I'm working on seven prototypes that we are looking forward to patent and manufacture.
Product launch
Having a recognizable brand name is no guarantee that a product
launch will be a success.
Many have failed. The Samsung Galaxy Note 7 product launch
literally went up in flames while the Amazon Fire Phone fizzled.
I can really see that other well-known brands have been a raving
success with product launches, including Apple, Google, and Under
Armour. These brands prove they know how to close a
sale and optimize their marketing channels which they base
on proven sales techniques.
Then there are the brands that no one ever heard of but are now
household names thanks to successful product launches: Fibre One,
Magnum Ice Cream, and Skinny Cow just to name a few.
This guide will help me develop the best approach for launching a
product.
I will follow these steps to the final product launch:
Step 1: Develop the buyer persona.
Step 2: Develop a competitive price point.
Step 3: Select a launch type.
Step 4: Create a marketing plan.
Step 5: Craft persuasive messaging.
Step 6: Involve the customer as the influencer.
Things to consider during the pre-product launch
Before jumping into the steps listed below for the perfect product
launch, there are some things to consider. Once I have made
these key decisions during the pre-product launch, it’s all systems
go to follow the recommended actions in this guide.
1. Who is are my audience, and what are their pain points?
Before undertaking a product launch, it’s important to know that
you are presenting my product as a solution to the right segments.
Part of identifying my target audience is understanding their pain
points and giving them a product that alleviates those.
If you don’t know who I should sell to before launching a
product or how I can help them, then my product launch will
fail.
2. The resources that I need for the product launch?
Before a product launch, it’s critical to have enough of the right
resources in place to carry me through the product launch and
beyond. The type and amount of resources vary by product type
and the overall launch strategy.
For example, consider factors like if the new product can be tied to
an existing product line. In this case, I may be able to use fewer
resources than you would for a new product launch for a company
that has no existing brand awareness.
Other factors include assessing if I have enough talent within the
company to do the launch or if I will have to use external
resources.
In terms of tools, I may find it worthwhile to invest in technology
that automates part of the process. For example, email marketing
software handles the time-intensive task of reaching out to my
entire email list, which frees up the team to focus on other
responsibilities. Some of my favorites include Mailchimp, AWeber,
and Mailerlite.
Knowing what I need in terms of time, money, and talent in
advance can help ensure my have a sustainable amount of
resources.
3. What is my follow-up, or post-launch strategy?
Although me have a plan for launch, it’s also important to be
prepared for what follows.
Once my product launches, I want to keep the momentum
going by having a long-term marketing and sales strategy that fuels
the buzz.
While products can go viral thanks to an audience’s help, there is a
lot of work behind the scenes to reach that tipping point. My post-
launch strategy needs to have thorough social media, content
marketing, and influencer marketing tactics, as well as plans to
address any potential product complaints.
Device name : Shoe electronic beach device
Running away from the shark using shoe electronic beach device, this shoe electronic beach device will be wrapped around the human leg ankle on both legs and the size of the device will be 20 mm x 50 mm and the thickness size is 1.9 mm, on the other side the swimmer will wrapped around the belt device on the wrist, the size of the beach belt device will be 4 mm x 10 mm and when the swimmer is drowning will press the button on the belt device that is on the wrist just to keep the swimmer remain afloat above when drowning on the beach or under shark attack and the electronic beach device will be be quickly converted to a look alike scuba diver shoes and allow the swimmer to quickly stand above the sea by the electronic beach device, then the swimmer will move with the electronic beach device shoes to the shore, and the shoe electronic beach device will move like a surfing board, but it's not the surfing board.
Components of the shoe electronic beach
These shoes will be made from a quick-drying mesh fabric that is suitable for use in water, the pairs will also have some element of neoprene involved and may look or feel more like ‘wetsuit shoes. The elasticated ankle will ensure they stay on whilst you’re in water and the grippy sole means they are ideal for people who are drowning or under shark attack on the beach too.
Rubber sole: Provides better traction than bare feet or flip-flops, which can reduce the risk of slips and falls.
Other components of shoes include:
Lightweight, breathable materials: Keep your feet cool and comfortable.
Water-repellent material: Most water shoes are made of mesh with rubber parts or outsoles that don't absorb water.
Fast-drying: Designed to drain water quickly after walking in water.
Insulating material: An added layer of neoprene or other insulating material can protect your extremities in colder water.
Insole: Provides comfort and support by absorbing shock and distributing pressure evenly across the sole of your foot.
Toe box: The part of the shoe that covers your toes.
How will this function during shark attack or drowning?
When the swimmer is drowning will press the button on the belt device that is on the wrist just to keep the swimmer remain afloat above when drowning on the beach or under shark attack and the electronic beach device will be be quickly converted to a look alike scuba diver shoes and allow the swimmer to quickly stand above the sea by the elctronic beach device, then the swimmer will move with the elctronic beach device shoes to the shore, and the shoe eletcronic beach device will move like a surfing board, but it's not the surfing board.
Midsole: The part of the sole that connects the outsole to the insole and upper, and is responsible for cushioning and absorbing shock.
Prototype / developed design is a very important part of
the design and manufacturing
process. Testing and evaluation, simply confirms that the
product will work as it is
supposed to, or if it needs refinement.
In general, testing a prototype allows the designer and
client to assess the viability of a
design. Will it be successful as a commercial product?
Testing also helps identify potential faults, which in turn allows the designer to make
improvements.
The second prototype is all about
This will be the chargeable device and will prevent the drivers from sleeping while driving long distance or short distance, this will be detected by the camera on the car or bus whatever car we are driving and if the driver is asleep during driving, the device will detect the eyes of the driver when the car or bus is in motion, at that point in time your driving while asleep and the cold device will be attached around your ear in order to wake you up when you are falling asleep during driving. In this case the size of the electroni device will be 10.9 inches and wrapped around the drivers ear and it will be containing the cold gel that will enable it to wake the driver up when falling asleep on the steering wheel during driving.
The third prototype is about preventing tourist and hunters from being attacked by wild animals while doing hunting and touring the wild etc.
We are doing this project and we have endorsed Oxford University's proposal to present the Dynamic Orbital Communication Adjustment Protocol (DOCAP) at the Hackathon. Keio's dedication to innovation aligns with the collaborative spirit of the Hackathon, making them valuable contributors, keep your eyes open out there guys. I had my friend who is doing PhD from Oxford University had this patent, I'm doing the prototype technology project with davison ideas company from Pennsylvania PA. Anyone can phone and physically go to davison idea's store in Pittsburgh as they can see the address below, my project manager's contact details are cortese.mike@davison.com, (1-800-544-3327) if calling from the US or Canada. Call 412-967-0124phone is Address: Davison International, Inc. RIDC Park 585 Alpha Drive Pittsburgh, PA 15238-2911. The second project is in UK, my project manager is Alex Bell, contact details are Tel: 020 7354 5640 Web: www.innovate-design.co.uk alex.bell@innovate-design.com Address is Alex Bell | Senior Innovation Coach Salisbury Studio: 36 Endless Street, Salisbury, SP1 3UH London Office: 24 Greville Street, Farringdon, London EC1N 8SS. The second project is in UK, my project manager is Alex Bell, contact details are Tel: 020 7354 5640 Web: www.innovate-design.co.uk alex.bell@innovate-design.com Address is Alex Bell | Senior Innovation Coach Salisbury Studio: 36 Endless Street, Salisbury, SP1 3UH London Office: 24 Greville Street, Farringdon, London, EC1N
This is Mike,Yoshiki Uchida and Lancelott from the University of
Oxford. We have something I'd like to do at the IETF Hackathon. Our
project, entitled the Dynamic Orbital Communication Adjustment Protocol
(DOCAP), is designed to significantly improve the efficiency and
reliability of communications in space by dynamically adjusting
communication margins. This adjustment is based on real-time and
predictive velocity and acceleration data of satellites and spacecraft.
The core of our proposal involves the development of a novel protocol
that utilizes heartbeat messages for the dynamic adjustment of
communication parameters in orbital communication systems. This would
entail the formulation of a new message format to convey essential
velocity and acceleration data, alongside a mechanism for calculating
dynamic communication margins.
Before we proceed with our detailed proposal, we seek to confirm a few
critical points with you guys:
1. Given that our concept is original and currently lacks a formal draft
or pre-existing specification within the IETF document repository,
would our project be considered appropriate for submission to the IETF
Hackathon?
2. Are projects that introduce entirely new concepts, as opposed to
building upon existing drafts, welcome at the Hackathon?
Our primary aim is to contribute a fresh perspective to the challenges
of space communication.
