Skip to main content

How PayPal and Amazon can scoop up the mobile payments market

On the one hand, everyone's getting excited about mobile payments.  The credit card companies and mobile companies are working together on it, and lots of surveys show that people like the idea (here, here and here, to name a few).

On the other hand, it's slow in coming.  Technology providers are downscaling their forecasts for NFC-enabled phones, insiders think it will take a while to build the necessary infrastructure, and some NFC-powered phones (from Nokia) won't be able to make secure payments.  And many users are nervous: they want service from companies they trust, and as much as they want to make fast payments, they're not sure about putting their credit card numbers into their phones.

But Grizzly Analytics predicts that mobile payments, at least in the short term, is about to be scooped up by PayPal and Amazon.

Standard NFC payments work very hard to be safe and secure.  This includes having a Secure Chip on the phone that stores private information safety (encrypted) and a secure protocol that uses NFC communication to transmit that information 10cm or so from the phone to the store's register.  It sounds easy, but to do it safely and securely is taking a lot of work.

It also involves a lot of companies. The transaction is between the customer and the store, but in between there's a phone manufacturer, a cellphone operator, a cash register maker, a credit card company, and some banks, all of which need to work together (or follow the same standard) and all of which would love their own small percentage of each transaction.

Enter PayPal.

PayPal's new approach to NFC payments is much simpler, based on the phone's Internet connection and PayPal's Internet payment infrastructure.  One side (a phone or presumably a cash register or computer) requests money, NFC is used to exchange PayPal ID's (e-mail addresses), the payer enters their PayPal password to make the payment, and PayPal's infrastructure takes it from there.



Why is this better?  Well, first of all, there's no need for an NFC Secure Chip. The critical information is all held by PalPal (who already has it), and the phone just has the e-mail address and, when needed, the user enters their PayPal password.  Second, if the NFC transmission is intercepted, it's worthless, since the payer will only enter their PayPal password once, and presumably knows not to confirm a payment to techthief@robbersrus.com.  Third, users don't have to trust their phones with their credit card numbers. Fourth, all the infrastructure is already in place.

What's more, this approach doesn't really need NFC.  The exact same thing could be achieved with a QR code, where the phone would scan the QR code to get the PayPal ID to which money should be sent. Or the cash register could request the PayPal ID over Bluetooth. Or the cashier could tell the phone user to send $10 to purchase@thisstore.com.  Or any of many other methods could be used to initiate the payment, since once it's initiated, PayPal takes it from there.

This could even work on phones with limited NFC capabilities.  It's no problem if Nokia phones don't have the Secure Chip, since this approach doesn't use it.  It's not even a problem if your phone can only do an NFC read and not an NFC write, since that's enough to receive the payment request.

But the plot thickens.

Along comes Amazon and says that they're working on system for mobile payments at stores, based on their own payment infrastructure.  Amazon is another company that already has credit card information for millions of people, and a system for payments that everyone trusts. They, like PayPal, have the infrastructure in place to enable people on Internet-connected phones to make payments to stores or any other recipient.

If PayPal and Amazon move fast enough, they can get their systems into stores with very little work by the stores, while the rest of the payments folks are sitting around getting their trusted service managers and single wire protocols in place.  We're betting that they're hurring at this right now, and will have it deployed by the end of the calendar year.

Of course, there are others that have this infrastructure for this as well.  Apple has iTunes accounts, Google has Google Wallet accounts, and others also have your payment info and infrastructure.  But PayPal and Amazon are the trusted names in the area, and have the most secure and trusted infrastructure.

So what do you think?  Would you sooner trust a partnership of a dozen financial and cellular companies, or PayPal? If you're a store, do you want to put in fancy new systems for NFC secure payments, or take payments at the register through PayPal?

Of course, there are advantages of the classic NFC payment approach that Isis and others are taking. It'll work for people without on-line payment accounts, and it'll work without cellular Internet (if you're traveling, or without reception).  But pretty soon the classic payment companies will be playing catch-up.


Further analysis was in the Grizzly Analytics monthly report of August 1, 2011.  Interested in hearing more?  Contact us at info@grizzlyanalytics.com or +1-908-827-1580.

Popular posts from this blog

Intel demos indoor location technology in new Wi-Fi chips at MWC 2015

Intel made several announcements  at MWC 2015, including a new chipset for wireless connectivity (Wi-Fi) in mobile devices. This new chipset, the 8270, include in-chip support for indoor location positioning. Below we explain their technology and show a video of it in action. With this announcement, Intel joins Broadcom, Qualcomm and other chip makers in moving broad indoor location positioning into mobile device hardware. The transition of indoor location positioning into chips is a trend identified in the newest Grizzly Analytics report on Indoor Location Positioning Technologies , released the week before MWC 2015. By moving indoor location positioning from software into hardware, chips such as Intel's enable location positioning to run continuously and universally, without using device CPU, and with less power consumption. Intel's technology delivers 1-3 meter accuracy, using a technique called multilateration, generating a new location estimate every second. While 1-

Robot Camera Foreshadows an Era of Location-Aware Electronics

A French company called Move 'N See produces a line of camera robots. Their devices act as a smart tripod, holding a video camera and automatically moving and zooming the camera as people of interest move around a site. The idea is simple but amazingly innovative. Photo selfies are easy to take, but video selfies are next to impossible. How can I video myself playing football or doing gymnastics, without setting the camera so far back as to be useless? Do spectators want to spend an entire sporting event carefully videoing their friend or relative moving around the field? Enter Move 'N See's "personal robot cameramen." Their devices aim, pan and zoom a video camera as one or more people move around an area. The people of interest wear armbands whose locations are tracked, enabling the camera controller to know where to aim the camera. The camera controller also includes enough smarts to adjust the camera smoothly and to capture multiple people evenly. T

Waze and Google Maps: A Quick Comparison

I've been a big Waze fan for years, relying on it to make my daily commute as quick as possible.  I try to never leave my hometown without checking Waze first to avoid getting stuck in traffic. For those of you who don't know about Waze, they basically crowd-source traffic information, learning where traffic is slow by measuring how fast their users are moving.  This traffic information is then used to route people in ways that will truly be fastest.  (Apple has reportedly licensed Waze data for their upcoming maps app.) Waze is used most heavily abroad, and is only recently building a following in the States.  (It was also just reviewed on the Forbes site .)  So on a recent trip to the States, I decided to compare Waze to the latest USA-based version of Google Maps for Android. In a nutshell, I reached three conclusions.  (1) Google's use of text-to-speech in their turn-by-turn directions is very nice.   (2) Google's got Waze beat in terms of explaining what